# EDGAR Filing Document

**Accession Number:** 0001684688
**File Stem:** 0001641172-25-017223
**Filing Date:** 2025-7
**Character Count:** 891623
**Document Hash:** 4e6453a5fe3ce63a742c67a7ec56f22f
**Contains OCR:** False
**Source Format:** 

## Filing Content

## Filing Summary
**0001641172-25-017223.hdr.sgml**: 20250919

**ACCESSION NUMBER**: 0001641172-25-017223

**CONFORMED SUBMISSION TYPE**: DRS/A

**PUBLIC DOCUMENT COUNT**: 278

**FILED AS OF DATE**: 20250701

**DATE AS OF CHANGE**: 20250630

**FILER**: 

**COMPANY DATA:**
- **COMPANY CONFORMED NAME:** ATLAS CRITICAL MINERALS Corp
- **CENTRAL INDEX KEY:** 0001684688
- **STANDARD INDUSTRIAL CLASSIFICATION:** GOLD & SILVER ORES [1040]
- **ORGANIZATION NAME:** 01 Energy & Transportation
- **EIN:** 000000000
- **STATE OF INCORPORATION:** 1T
- **FISCAL YEAR END:** 1231

**FILING VALUES:**
- **FORM TYPE:** DRS/A
- **SEC ACT:** 1933 Act
- **SEC FILE NUMBER:** 377-07970
- **FILM NUMBER:** 251093504

**BUSINESS ADDRESS:**
- **STREET 1:** BELO HORIZONTE
- **CITY:** MINAS GERAIS
- **STATE:** D5
- **ZIP:** 30112-010
- **BUSINESS PHONE:** 55-31-3956-1109

**MAIL ADDRESS:**
- **STREET 1:** BELO HORIZONTE
- **CITY:** MINAS GERAIS
- **STATE:** D5
- **ZIP:** 30112-010

**FORMER COMPANY:**
- **FORMER CONFORMED NAME:** Jupiter Gold Corp
- **DATE OF NAME CHANGE:** 20160914

**As confidentially submitted to the Securities and Exchange Commission on June 30, 2025.**

**This Amendment No. 1 to the draft registration statement submitted on May 2, 2025 has not been filed publicly with the Securities and Exchange Commission and all information herein remains strictly confidential.**

**Registration No. 333-**

**UNITED STATES**

**SECURITIES AND EXCHANGE COMMISSION**

**WASHINGTON, D.C. 20549**

**FORM F-1**

**REGISTRATION STATEMENT UNDER THE SECURITIES ACT OF 1933**

**ATLAS CRITICAL MINERALS CORPORATION**

(Exact name of registrant as specified in its charter)

_______________________________________

(Translation of Registrant's name into English)

---

| | | |
|:---|:---|:---|
| **<u>Republic of the Marshall Islands</u>** | **<u>1041</u>** | **<u>Not Applicable</u>** |
| (State or other jurisdiction<br> of incorporation) | (Primary Standard Industrial Classification Code Number) | (IRS Employer<br> Identification No.) |

---

**Atlas Critical Minerals Corporation**

**Rua Antônio de Albuquerque, 156, Suite 1720**

**Belo Horizonte, Minas Gerais, Brazil, 30112-010**

**<u>(888) 412-0210</u>**

(Address, including zip code, and telephone number,

including area code, of registrant's principal executive offices)

**Marc Fogassa**

**Chief Executive Officer**

**Rua Antônio de Albuquerque, 156, Suite 1720**

**Belo Horizonte, Minas Gerais, Brazil, 30112-010**

**<u>(888) 412-0210</u>**

(Name, address, including zip code, and telephone number, including area code, of agent for service)

With copies to:

---

| | | |
|:---|:---|:---|
| **Daniel Rumsey, Esq.**<br> **John P. Kennedy, Esq.**<br> **Disclosure Law Group, a Professional Corporation**<br> **655 West Broadway, Suite 870**<br> **San Diego, CA 92101**<br> **(619) 272-7050** | **Michael S. Timpone, Esq.**<br> **Seward & Kissel LLP**<br> **One Battery Park Plaza**<br> **New York, NY 10004**<br> **(212) 574-1342** | **Leslie Marlow, Esq.**<br> **Hank Gracin, Esq.**<br> **Patrick Egan, Esq.**<br> **Blank Rome LLP**<br> **1271 Avenue of the Americas**<br> **New York, NY 10020**<br> **(212) 885-5000** |

---

**Approximate date of commencement of proposed sale of the securities to the public:** As soon as practicable after the effective date of this Registration Statement

If any of the securities being registered on this Form are to be offered on a delayed or continuous basis pursuant to Rule 415 under the Securities Act of 1933 check the following box. ☐

If this Form is filed to register additional securities for an offering pursuant to Rule 462(b) under the Securities Act, please check the following box and list the Securities Act registration statement number of the earlier effective registration statement for the same offering. ☐

If this Form is a post-effective amendment filed pursuant to Rule 462(c) under the Securities Act, check the following box and list the Securities Act registration statement number of the earlier effective registration statement for the same offering. ☐

If this Form is a post-effective amendment filed pursuant to Rule 462(d) under the Securities Act, check the following box and list the Securities Act registration statement number of the earlier effective registration statement for the same offering. ☐

Indicate by check mark whether the registrant is an emerging growth company as defined in Rule 405 of the Securities Act of 1933. ☐

If an emerging growth company that prepares its financial statements in accordance with U.S. GAAP, indicate by check mark if the registrant has elected not to use the extended transition period for complying with any new or revised financial accounting standards† provided pursuant to Section 7(a)(2)(B) of the Securities Act. ☐

† The term "new or revised financial accounting standard" refers to any update issued by the Financial Accounting Standards Board to its Accounting Standards Codification after April 5, 2012.

**The registrant hereby amends this Registration Statement on such date or dates as may be necessary to delay its effective date until the registrant shall file a further amendment which specifically states that this Registration Statement shall thereafter become effective in accordance with Section 8(a) of the Securities Act of 1933, as amended, or until this Registration Statement shall become effective on such date as the Securities and Exchange Commission, acting pursuant to said Section 8(a), may determine.**

**The information in this preliminary prospectus is not complete and may be changed. These securities may not be sold until the registration statement filed with the Securities and Exchange Commission is effective. This preliminary prospectus is not an offer to sell these securities nor does it seek an offer to buy these securities in any jurisdiction where the offer or sale is not permitted.**

---

| | | |
|:---|:---|:---|
| **PRELIMINARY PROSPECTUS** | **SUBJECT TO COMPLETION** | **DATED JUNE 30, 2025** |

---

**[●] Shares of Common Stock**

This prospectus relates to a firm commitment public offering of Atlas Critical Minerals Corporation, a Republic of the Marshall Islands corporation (the "Company"), for [●] shares of our common stock, $0.001 par value per share. We assume that the offering price of our common stock will be between $[●] and $[●] per share. The offering price will be fixed for the duration of the offering. The actual offering price will be determined by negotiations between us and the underwriters based upon a number of factors, including our history and our prospects, the industry in which we operate, our past and present operating results, the previous experience of our executive officers and the general condition of the securities markets at the time of this offering

Currently, our common stock is quoted for trading on the OTCQB operated by the OTC Markets Group, Inc. under the symbol "JUPGF." We have applied for listing of our common stock on the Nasdaq Capital Market under the symbol "ATCX." Although we believe we will satisfy the Nasdaq Capital Market listing requirements, no assurance can be given that our application will be approved, and we will not consummate this offering unless our common stock is approved for listing on the Nasdaq Capital Market.

Holders of our Series A Convertible Preferred Stock ("Series A Preferred") are entitled to 51% of the total votes on all matters regardless of the actual number of shares of Series A Preferred then outstanding, and the holders of common stock and any other class or series of capital stock entitled to vote with the common stock being entitled to their proportional share of the remaining 49% of the total votes based on their respective voting power. As a result of his ownership of the one issued and outstanding share of our Series A Preferred, as well as ownership of our common stock and his ownership of voting securities of Atlas Lithium, Mr. Fogassa, our Founder, Chief Executive Officer and Chairman, currently controls approximately 83.3% of the voting power of our securities. We therefore are a "controlled company" as defined under Nasdaq Marketplace Rules. We do not intend to rely on the controlled company exemptions provided under Nasdaq Marketplace Rules.

On [●], 2025, the last reported sale price for our common stock, as quoted on the OTCQB, was $[●] per share. Quotes of stock trading prices on the OTCQB may not be indicative of the market price of our common stock on a national securities exchange, including the Nasdaq Capital Market. The final public underwritten offering price may be at a discount to the trading price of our common stock on the OTCQB.

**INVESTING IN OUR SECURITIES INVOLVES A HIGH DEGREE OF RISK. SEE "*RISK FACTORS*" BEGINNING ON PAGE 12 OF THIS PROSPECTUS FOR A DISCUSSION OF INFORMATION THAT SHOULD BE CONSIDERED IN CONNECTION WITH AN INVESTMENT IN OUR SECURITIES**

---

| | | |
|:---|:---|:---|
|  | **Per Share of <br> Common Stock** | **Total** |
| Public offering price<sup>(1)</sup> | $| $|
| Underwriting discounts and commissions<sup>(2)</sup> | $| $|
| Proceeds to us, before expenses<sup>(3)</sup> | $| $|

---

(1) Represents
 the estimated public offering price. The actual offering price will be determined by negotiations between us and the underwriters
 and may not be indicative of prices of the actual offering price

(2) We
 have agreed to pay the underwriters underwriting discounts and commissions equal to (i) 7.0% of the aggregate gross proceeds in this
 offering from the sale of securities to certain investors and (ii) 3.0% of the aggregate gross proceeds in this offering
 from the sale of securities to certain other investors.

(3) Does
 not include a non-accountable expense allowance of up to $20,000 payable to the underwriters, or the reimbursement of certain expenses
 of the underwriters, including legal fees of up to $200,000. We have also agreed to issue the representative of the underwriters
 a warrant to purchase a number of shares of common stock equal to 6.0% of the total number of shares of common stock sold in this
 offering at an exercise price equal to 115% of the initial public offering price of the shares of common stock sold in this
 offering. For additional information regarding underwriters' compensation, see "Underwriting" beginning
 on page 125. The registration statement of which this prospectus is a part also covers the shares of common stock issuable upon the
 exercise of the underwriter warrants.

We have granted to the underwriters a 45-day option to purchase from us up to an additional [●] shares, representing 15% of the shares of common stock sold in the offering, solely to cover over-allotments, if any, at the public offering price per share, less the underwriting discounts.

The underwriters expect to deliver our common stock to purchasers in this offering on or about , 2025.

**Neither the Securities and Exchange Commission nor any state securities commission has approved or disapproved of these securities or passed upon the accuracy or adequacy of this prospectus. Any representation to the contrary is a criminal offense**

---

| | |
|:---|:---|
| **A.G.P.** | **Bradesco BBI** |

---

The date of this prospectus is , 2025.

**TABLE OF CONTENTS**

---

| | |
|:---|:---|
|  | **Page** |
| [CAUTIONARY NOTE REGARDING FORWARD-LOOKING STATEMENTS](#a_001) | 1 |
| [CAUTIONARY NOTE REGARDING DISCLOSURE OF MINERAL PROPERTIES](#a_002) | 2 |
| [INDUSTRY AND MARKET DATA](#a_003) | 3 |
| [PROSPECTUS SUMMARY](#a_004) | 4 |
| [THE OFFERING](#a_005) | 9 |
| [SUMMARY FINANCIAL DATA](#a_006) | 11 |
| [RISK FACTORS](#a_007) | 12 |
| [USE OF PROCEEDS](#a_008) | 30 |
| [DETERMINATION OF OFFERING PRICE](#a_009) | 31 |
| [MARKET FOR OUR COMMON STOCK AND RELATED SHAREHOLDER MATTERS](#a_010) | 32 |
| [CAPITALIZATION](#a_011) | 33 |
| [DILUTION](#a_012) | 34 |
| [MANAGEMENT'S DISCUSSION AND ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS](#a_013) | 35 |
| [BUSINESS](#fw_001) | 38 |
| [SENIOR MANAGEMENT AND DIRECTORS](#m_001) | 106 |
| [EXECUTIVE AND DIRECTOR COMPENSATION](#m_002) | 112 |
| [RELATED PARTY TRANSACTIONS](#m_003) | 113 |
| [MAJOR SHAREHOLDERS](#m_004) | 114 |
| [DESCRIPTION OF SECURITIES](#m_005) | 115 |
| [ADDITIONAL INFORMATION](#ab_001) | 117 |
| [DISCLOSURE OF COMMISSION POSITION ON INDEMNIFICATION OF SECURITIES ACT LIABILITIES](#m_006) | 119 |
| [SHARES ELIGIBLE FOR FUTURE SALE](#m_007) | 120 |
| [MATERIAL U.S. FEDERAL INCOME TAX CONSIDERATIONS](#m_008) | 121 |
| [UNDERWRITING](#m_009) | 125 |
| [EXPENSES RELATED TO THE OFFERING](#m_010) | 129 |
| [LEGAL MATTERS](#m_011) | 129 |
| [EXPERTS](#m_012) | 129 |
| [INTERESTS OF NAMED EXPERTS AND COUNSEL](#m_013) | 129 |
| [ENFORCEABILITY OF CERTAIN CIVIL LIABILITIES](#m_014) | 129 |
| [WHERE YOU CAN FIND MORE INFORMATION](#m_015) | 130 |
| [INDEX TO FINANCIAL STATEMENTS](#m_016) | F-1 |

---

Through and including the 25th day after the date of this prospectus, all dealers effecting transactions in these securities, whether or not participating in this offering, may be required to deliver a prospectus. This is in addition to a dealer's obligation to deliver a prospectus when acting as an underwriter and with respect to an unsold allotment or subscription.

You should rely only on the information contained in this prospectus or in any free writing prospectus we or the underwriters may authorize to be delivered or made available to you. Neither we nor the underwriters have authorized anyone to provide you with different information. We are offering to sell, and seeking offers to buy, shares of common stock only in jurisdictions where offers and sales are permitted. The information in this prospectus is accurate only as of the date of this prospectus, regardless of the time of delivery of this prospectus or of any sale of shares of our common stock. Our business, financial condition, operating results and prospects may have changed since that date.

*For investors outside of the United States:* No action is being taken in any jurisdiction outside of the United States that would permit a public offering of the shares of our common stock or possession or distribution of this prospectus in any such jurisdiction. Persons outside of the United States who come into possession of this prospectus must inform themselves about, and observe any restrictions relating to, the offering of the shares of common stock and the distribution of this prospectus outside of the United States.

As used in this prospectus, unless the context indicates otherwise, references to "Atlas Critical Minerals," "Jupiter Gold Corporation," "we," the "Company," "our," and "us" refer to Atlas Critical Minerals Corporation, a Republic of the Marshall Islands corporation, and references to the "Board" or the "Board of Directors" means the Board of Directors of Atlas Critical Minerals Corporation.

i

**CAUTIONARY NOTE REGARDING FORWARD-LOOKING STATEMENTS**

This prospectus contains forward-looking statements that involve substantial risks and uncertainties. The forward-looking statements are contained principally in the sections of this prospectus entitled "Prospectus Summary," "Risk Factors," "Management's Discussion and Analysis of Financial Condition and Results of Operations" and "Business," but are also contained elsewhere in this prospectus. In some cases, you can identify forward-looking statements by the words "anticipate," "believe," "continue," "could," "estimate," "expect," "intend," "may," "might," "objective," "ongoing," "plan," "predict," "project," "potential," "should," or the negative of these terms, or other comparable terminology intended to identify statements about the future. These statements involve known and unknown risks, uncertainties and other factors that may cause our actual results, levels of activity, performance or achievements to be materially different from the information expressed or implied by these forward-looking statements. Although we believe that we have a reasonable basis for each forward-looking statement contained in this prospectus, we caution you that these statements are based on a combination of facts and factors currently known by us and our expectations of the future, about which we cannot be certain. Forward-looking statements include statements about:

● our ability to continue as a going concern and our history of losses;

● our ability to obtain additional financing;

● our use of the net proceeds from this offering;

● our ability to study and properly explore the various mineral rights that we own;

● our ability to obtain the necessary permitting for mining and processing material obtained in mining;

● the accuracy of our estimates regarding expenses, future revenues and capital requirements;

● the implementation of our business model and strategic plans for our business;

● our ability to retain key management personnel; and

● regulatory developments and our compliance with applicable laws.

Forward-looking statements are inherently subject to risks and uncertainties, many of which we cannot predict with accuracy and some of which we might not even anticipate. Although we believe that the expectations reflected in such forward-looking statements are based upon reasonable assumptions at the time made, we can give no assurance that such expectations will be achieved. Actual events or results may differ materially. Readers are cautioned not to place undue reliance on forward-looking statements. We have no duty to update or revise any forward-looking statements after the date of this prospectus or to conform them to actual results, new information, future events or otherwise.

Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements. Moreover, neither we nor any other person assumes responsibility for the accuracy and completeness of these forward-looking statements.

You should read the risk factors and the other cautionary statements made in this prospectus as being applicable to all related forward-looking statements wherever they appear in this prospectus. If one or more of these factors materialize, or if any underlying assumptions prove incorrect, our actual results, performance or achievements may vary materially from any future results, performance or achievements expressed or implied by these forward-looking statements. We undertake no obligation to publicly update any forward-looking statements, whether as a result of new information, future events or otherwise, except as required by law.

**CAUTIONARY NOTE REGARDING DISCLOSURE OF MINERAL PROPERTIES**

We are subject to the reporting requirements of the applicable U.S. securities laws. U.S. reporting requirements currently applicable to us are governed by the Securities Act of 1933, as amended ("Securities Act"), and the Exchange Act of 1934, as amended ("Exchange Act"), including Regulation S-K, Subpart 1300 ("Regulation S-K 1300").

Under Regulation S-K 1300, mineralization may not be classified as a reserve unless the determination has been made that the mineralization could be economically and legally produced or extracted at the time the reserve determination is made. We are an exploration stage company, and we have no reserves as defined by Regulation S-K 1300. A Technical Report Summary prepared in accordance with Regulation S-K 1300 with respect to our Rio Piracicaba iron ore project ("Rio Piracicaba TRS") is included as an exhibit to this prospectus. A summary table of the mineral resources provided in such Rio Piracicaba TRS is copied below in italics. Below, tonnages (t) are presented in situ.

**Mineral Resource Estimate**

*The statement has been certified by Qualified Person Volodymyr Myadzel.* 

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| | | *VOLUME* | **** | *TONNES* | *DENSITY* | *Fe* | *Si* | *Al* | *Mn* | *P* | *PPC* |
| *CLASS* | *TYPE* | *M³* |  | *t* | *(t/m³)* | *pct* | *pct* | *pct* | *pct* | *pct* | *pct* |
| *Indicated* | *FRIABLE ITABIRITE* | *853593* |  | *2646141* | *3.10* | *33.74* | *46.50* | *1.97* | *1.04* | *0.02* | *121* |
|  | *COLLUVIUM* | *67725* |  | *121905* | *1.80* | *31.11* | *33.17* | *10.99* | *1.03* | *0.05* | *8.06* |
| *Inferred* | *FRIABLE ITABIRITE* | *1025538* |  | *3179166* | *3.10* | *31.61* | *44.97* | *2.92* | *3.14* | *0.02* | *1.75* |
|  | *COMPACT ITABIRITE* | *581006* |  | *1905701* | *3.28* | *28.35* | *57.68* | *0.92* | *0.06* | *0.01* | *030* |
| *TOTAL* |  | *2527863* |  | *7852912* | *3.11* | *31.53* | *48.39* | *2.24* | *1.65* | *0.02* | *1.31* |

---

***Table 1.5-1: Rio Piracicaba Project –Mineral Resource Grade Tonnage Report***

*1.* *The definitions for Mineral Resources in Regulation S-K 1300 were followed for Mineral Resources.* 

*2.* *Mineral Resources are estimated at a cut-off grade of 20% Fe.* 

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;*3.* *Mineral Resources are estimated using a long-term iron ore price of U.S.$90 per dry metric tonne for the Platts/IODEX 62% Fe fines CFR China, and U.S.$/BRL exchange rate of 5.25.* 

*4.* *Reasonable prospects for economic extraction were determined by benchmarking similar operations and developing a 20% Fe cut-off grade based on operating costs.* 

*5.* *The effective date is June 16, 2025.* 

*The resources were classified as Indicated and Inferred according to the degree of reliability of the different rounds and data used for the interpolation of the block model.*

**INDUSTRY AND MARKET DATA**

This prospectus contains estimates and other statistical data made by independent parties and by us relating to market size and growth and other data about our industry. We obtained the industry and market data in this prospectus from our own research as well as from industry and general publications, surveys and studies conducted by third parties.

Publicly available information, industry and general publications and research, surveys and studies conducted by third parties that are included in this Registration Statement include those available from Benchmark Minerals<sup>(1)</sup>, Carnegie Endowment<sup>(2)</sup>, Center for Strategic and International Studies<sup>(3)</sup>, Center on Global Energy Policy – Columbia University<sup>(4)</sup>, TD Economics<sup>(5)</sup>, PriceWaterhouse Coopers<sup>(6)</sup>, Statista<sup>(7)</sup>, U.S. Geological Survey<sup>(8)</sup>, and Wilson Center<sup>(9)</sup>, among others.

This data involves a number of assumptions and limitations and contains projections and estimates of the future performance of the industries in which we operate that are subject to a high degree of uncertainty, including those discussed in "Risk Factors." We caution you not to give undue weight to such projections, assumptions and estimates. Further, industry and general publications, studies and surveys generally state that they have been obtained from sources believed to be reliable, although they do not guarantee the accuracy or completeness of such information. While we believe that these publications, studies and surveys are reliable, we have not independently verified the data contained in them. In addition, while we believe that the results and estimates from our internal research are reliable, such results and estimates have not been verified by any independent source.

<sup>(1)</sup> "Is Graphite Price Upside a Forerunner for other Critical Minerals?" October 6, 2023 (Quoting *Benchmark Mineral Intelligence*: https://source.benchmarkminerals.com/article/more-than-300-new-mines-required to meet battery-demand-by 2035).

<sup>(2)</sup> "The U.S. Military and NATO Face Serious Risks of Mineral Shortages." *Carnegie Endowment for International Peace* *, published February 12, 2024.* <u>https://carnegieendowment.org/research/2024/02/the-us-military-and-nato-face-serious-risks-of-mineral-shortages?lang=en.</u>

<sup>(3)</sup> "Latin America: The World's Copper Stronghold." *Center for Strategic and International Studies*, published November 13, 2024. https://features.csis.org/copper-in-latin-america.

<sup>(4)</sup> "Brazil's Potential Role in Diversifying US Critical Mineral Supply." *Center on Global Energy Policy at Columbia University SIPA, CGEP, published August 15, 2024* https://www.energypolicy.columbia.edu/publications/brazils-potential-role-in-diversifying-us-critical-mineral-supply.

<sup>(5)</sup> "U.S. Trade Vulnerabilities in Critical Minerals: Pressure Points Amid Rising Tensions." *TD Economics published August 22, 2024. https://economics.td.com/us-trade-critical-minerals.*

<sup>(6)</sup> "Mine 2024: Preparing for impact." *PwC*. https://www.pwc.com/gx/en/industries/energy-utilities-resources/publications/mine.html.

<sup>(7)</sup> "Copper mine production in Brazil 2023." *Statista.* https://www.statista.com/statistics/795920/brazil-copper-production-volume.; "Brazil: graphite reserves 2024." *Statista.* https://www.statista.com/statistics/1546192/reserves-of-graphite-in-brazil.

<sup>(8)</sup> "Iron Ore Statistics and Information." *U.S. Geological Survey.* https://www.usgs.gov/centers/national-minerals-information-center/iron-ore-statistics-and-information.

<sup>(9)</sup> "Brazil's Critical Minerals and the Global Clean Energy Revolution." *Wilson Center, published October 2, 2024.* https://www.wilsoncenter.org/article/brazils-critical-minerals-and-global-clean-energy-revolution.

**PROSPECTUS SUMMARY**

*The following summary highlights selected information contained elsewhere in this prospectus and is qualified in its entirety by the more detailed information and financial statements included elsewhere in this prospectus. It does not contain all the information that may be important to you and your investment decision. You should carefully read this entire prospectus, including the matters set forth under "Risk Factors," "Management's Discussion and Analysis of Financial Condition and Results of Operations," and our financial statements and related notes included elsewhere in this prospectus.*

*Unless otherwise expressly provided herein, all share and per share numbers set forth herein relating to our common stock reflect the Reverse Stock Split (defined below) and no exercise of (a) any warrants and/or options, (b) the representatives' common stock purchase warrants and/or (c) the representatives' over-allotment option.*

**Company Overview**

Atlas Critical Minerals Corporation ("Atlas Critical Minerals," "Jupiter Gold Corporation," the "Company," "we," "us," or "our") is a Marshall Islands mineral exploration and development company focused on critical minerals projects and properties in Brazil. Our portfolio principally includes mineral properties for rare earths, graphite, titanium, copper and nickel, all of which are commonly considered to be "critical minerals". Certain of our mineral rights for copper and rare earths may also contain uranium, which is also a "critical mineral". Although our primary focus is on our critical material mineral properties which are currently in development, we also have a quartzite operation, which is our sole property currently generating revenues, as well as a permit to operate an iron ore mine with planned operations commencing prior to the end of 2025. We also own mineral rights for gold and diamonds.

<u>Mineral Properties</u>

Our current mineral properties are listed below, and do not include any mineral properties that would be acquired if we exercise the Option (defined below).

*<u>Critical Minerals</u>*

● <u>Rare Earths</u>: 53,939.23 hectares (~133,287 acres) in 33 mineral rights in Brazil with 18 in the state of Goiás and 15 in the state of Minas Gerais; 30 of such mineral rights are in the phase of exploration permit and three are in the phase of request for exploration permit. Titanium, another critical mineral, has been found within our 15 mineral rights for rare earths in the state of Minas Gerais.

● <u>Graphite</u>: 9,699.12 hectares (~23,967 acres) in three mineral rights in Brazil in the state of Minas Gerais, all in the phase of exploration permit; one of the mineral rights is in the final stage for formal recording at Agência Nacional de Mineração ("ANM") of its transfer from a third-party prior owner to us.

● <u>Uranium</u>: 105,420.07 hectares (~ 260,499 acres) in 22 mineral rights in Brazil with eight in the state of Goiás, five in the state of Minas Gerais, two in the state of Pará, and seven in the state of Tocantins, all in the phase of request for exploration permit; these mineral rights list copper, graphite, phosphate and/or rare earths as exploration minerals since Brazilian legislation at the moment does not allow uranium to be formally listed as an exploration mineral.

● <u>Copper</u>: 7,156.06 hectares (~17,683 acres) in four mineral rights in Brazil in the state of Goiás, all in the phase of exploration permit.

● <u>Nickel</u>: 1,101.24 hectares (~2,721 acres) in one mineral right in Brazil in the state of Piauí, in the phase of exploration permit.

*<u>Other Minerals</u>*

● <u>Iron Ore</u>: 22,280.78 hectares (~55,057 acres) in 18 mineral rights in Brazil with 10 in the state of Minas Gerais, seven in the state of Alagoas, and one in the state of Mato Grosso do Sul. One mineral right has obtained the status of mining concession of the other 17 mineral rights, 15 are in the exploration permit phase and two in the phase of request for exploration permit.

● <u>Gold</u>: 50,876 hectares (~125,716 acres) in 17 mineral rights in Brazil with 10 in the state of Minas Gerais, three in the state of Amazonas, three in the state of Mato Grosso, and one which straddles the state of Goiás and the state of Tocantins, with 16 in the phase of exploration permit and two in the phase of request for exploration permit.

● <u>Quartzite</u>: 94 hectares (~233 acres), in one mineral right in Brazil in the state of Minas Gerais where we established a quartzite quarry. Our production of quartzite and quartzite slabs is currently paused while we undergo modifications to our operations to address certain identified issues, principally consisting of the adoption of an updated drainage plan for the quarry. We currently expect to resume operations by year end 2025.

We have grown our portfolio of mineral rights by a combination of the following: (i) acquisition from third-parties, (ii) acquisition in auctions which are periodically organized by ANM, or (iii) direct petition to ANM following standard application procedures.

We believe the growing demand for critical minerals needed for clean energy, defense, and high-tech applications present significant long-term opportunities. Our goal is to become a leading company supplying critical minerals. We are in the early stages of exploration of our critical mineral portfolio and are working to advance our understanding of its potential.

The various critical minerals in our portfolio have various important applications. Rare earth elements are crucial for permanent magnets used in electric motors and wind turbines, and for semiconductor and defense applications. Graphite is a key component in lithium-ion batteries, while titanium has applications in aerospace and medical technologies. Copper and nickel are essential for electric vehicle batteries and renewable energy infrastructure.

Our exploration activities to date have included geological mapping, geochemical sampling, geophysical surveys, and limited exploratory drilling to identify potential mineralized zones within a few of our mineral rights. As we advance our understanding of these critical mineral properties, we may conduct extensive exploratory programs including drilling campaigns to identify and quantify mineral resources. The disclosure contained in this prospectus regarding our exploration programs addresses the requirements under Regulation S-K 1300.

We aim to create value through continued exploration, resource delineation, and potential development of our mineral rights over time. By maintaining a diverse portfolio of critical minerals projects, our objective is to seek to position us as a significant player in the global critical minerals supply chain. In this regard, many of our mineral rights are immaterial to our current business development plans, as more particularly set forth below; however, management will continually evaluate the feasibility of developing all of our critical mineral rights to exploit their potential and create value for our shareholders.

**<u>Primary Exploration Focus</u>**

Our primary exploration focus is on advancing our rare earths, titanium, and graphite projects to support the growing global demand for these critical minerals. Although our primary focus is on our critical mineral properties which are currently in development, we also have a quartzite operation, which is our sole property currently generating revenues, as well as a permit to operate an iron ore mine with planned operations commencing prior to the end of 2025. See "*Business-Iron Ore-Overview*" on page 92 of this prospectus, and "*Business-Quartzite-Overview*" on page 98 of this prospectus.

**Background**

On November 6, 2024, Jupiter Gold Corporation ("Jupiter Gold") and Apollo Resources Corporation, a Republic of the Marshall Islands corporation ("Apollo Resources"), entered into an Agreement and Plan of Merger, which provided for, among other things, the merger of Apollo Resources with and into Jupiter Gold (the "Merger"), with Jupiter Gold continuing its corporate existence as the surviving corporation. Prior to the Merger, Apollo Resources was a majority-owned subsidiary of Atlas Lithium. On November 19, 2024, following satisfaction and/or waiver of the closing conditions in the Merger agreement, including approval of the transactions contemplated under the Merger Agreement by the requisite vote of the shareholders of Jupiter Gold and Apollo Resources, respectively, the Merger was consummated and Apollo Resources merged with and into the Jupiter Gold.

In connection with the consummation of the Merger, each share of outstanding Apollo Resources securities was cancelled and converted into 6.62 shares of the common stock of Jupiter Gold. Immediately following the Merger, the holders of outstanding Apollo Resources securities owned approximately 59.40% of Jupiter Gold's outstanding securities. Our Founder, Chief Executive Officer and Chairman, Mr. Fogassa, who is also the Chief Executive Officer of Atlas Lithium, held 34.4% of Jupiter Gold's outstanding equity interest and controlled approximately [●]% of the voting power of its outstanding securities following the Merger.

On November 19, 2024, our Articles of Incorporation were amended and restated in order to (i) increase the authorized share capital of the Company to 200,000,000 shares, and (ii) increase the number of shares of authorized common stock to 190,000,000 shares.

The Company's wholly owned subsidiaries now include Mineração Jupiter Ltda, Mineração Apollo Ltda, Mineração Duas Barras Ltda, and RST Recursos Minerais Ltda.

On December 20, 2024, the Articles of Incorporation of Jupiter Gold, a Republic of the Marshall Islands corporation were amended to change the name of the Company to Atlas Critical Minerals Corporation. This name change was carried out to reflect a broader focus of the Company following its merger with Apollo Resources. On January 27, 2025, in connection with such an amendment, the Company filed a Certificate of Correction to correct the omission of a reference to the Company's original Articles of Incorporation, dated July 27, 2016, in Section 2 of the Articles of Amendment.

**Listing on a National Stock Exchange**

We have applied to list our common stock under the symbol "ATCX" on the Nasdaq Capital Market ("Nasdaq"). No assurance can be given that our application will be approved, and we will not consummate this offering unless our common stock is approved for listing on the Nasdaq Capital Market.

**Reverse Stock Split**

We intend to file a Certificate of Amendment to our Articles of Incorporation (the "Amendment") to effect a reverse stock split of our issued and outstanding shares of common stock at a ratio of 1-for-[●] (the "Reverse Stock Split"), to be effective upon the listing of our common stock on Nasdaq.

Following the Reverse Stock Split, each [●] shares of our issued and outstanding shares of common stock will automatically be converted into one issued and outstanding share of common stock, without any change in par value per share. No fractional shares will be issued as a result of the Reverse Stock Split and no cash or other consideration will be paid. Instead, we will issue one whole share of the post-split common stock to any stockholder who otherwise would have received a fractional share as a result of the Reverse Stock Split. The Reverse Stock Split will not affect the number of shares of authorized stock. Assuming that our listing application is approved, we anticipate our common stock will begin trading on a Reverse Stock Split-adjusted basis on the Nasdaq Capital Market under the new ticker symbol "ATCX" concurrently with the listing of our common stock on Nasdaq. Our common stock may be assigned the temporary ticker symbol "ATCXD" for the 20 business days following the Reverse Stock Split. On the 21<sup>st</sup> day, it will change to "ATCX."

The purpose of the Reverse Stock Split is to allow us to meet the minimum stock price requirement required for listing on a national securities exchange.

**Atlas Lithium Option**

On December 19, 2024, we entered into an option agreement (the "Option Agreement") with Atlas Lithium, pursuant to which Atlas Lithium granted us the exclusive right and option (the "Option") to purchase from Atlas Lithium 100% of the equity interest in Brazil Mineral Resources Corporation, a Republic of the Marshall Islands corporation and a wholly-owned subsidiary of Atlas Lithium ("Brazil Mineral Resources") (the "Equity Sale"). Pursuant to the Option Agreement, the Company can exercise the Option in either cash or shares of Common Stock, or a combination thereof. In the event the Option is exercised in full and is paid entirely in the form of Common stock, the Company will issue 12,767,315 shares of Common Stock at a price of $[0.6266]. Brazil Mineral Resources' primary assets consist of 60 mineral rights for copper, gold, graphite, nickel, rare earths, and titanium, all in Brazil. See *"Business – Atlas Lithium Option Agreement"* for a description of the Option Agreement.

**Risk Factors**

Our business is subject to numerous risks and uncertainties, including those highlighted in the section titled "Risk Factors," that represent challenges that we face in connection with the successful implementation of our strategy. The occurrence of one or more of the events or circumstances described in the section titled "Risk Factors," alone or in combination with other events or circumstances, may have an adverse effect on our business, cash flows, financial condition, and results of operations. Such risks include, but are not limited to:

● We have incurred losses since inception resulting in an accumulated deficit of $9,145,542 as of December 31, 2024, and further losses are anticipated in the development of our business;

● Our future performance is difficult to evaluate because we have a limited operating history;

● there is substantial doubt about our ability to continue as a going concern;

● we are an exploration stage company, and there is no guarantee that our properties will result in the commercial extraction of mineral deposits;

● because the probability of an individual prospect ever having reserves is not known, our properties may not contain any reserves, and any funds spent on exploration and evaluation may be lost;

● we face risks related to mining, exploration, and mine construction, if warranted, on our properties;

● our long-term success will depend ultimately on our ability to achieve and maintain profitability and to develop positive cash flow from our mining activities;

● we depend on our ability to successfully access the capital and financial markets. Any inability to access the capital or financial markets may limit our ability to fund our ongoing operations, execute our business plan or pursue investments that we may rely on for future growth;

● our quarterly and annual operating and financial results and our revenue are likely to fluctuate significantly in future periods;

● we may be unable to find sources of funding if and when needed, resulting in the failure of our business;

● our ability to manage growth will have an impact on our business, financial condition, and results of operations;

● we depend upon Marc Fogassa, our Chief Executive Officer and Chairman;

● our growth will require new personnel, which we will be required to recruit, hire, train and retain;

● certain of our executive officers and directors may be in a position of conflict of interest;

● our mineral projects will be subject to significant governmental regulations;

● we will be required to obtain governmental permits in order to conduct development and mining operations, a process which is often costly and time-consuming;

● compliance with environmental regulations and litigation based on environmental regulations could require significant expenditures;

● our operations are subject to extensive environmental laws and regulations;

● mineral prices are subject to unpredictable fluctuations;

● our ability to execute our business plan depends primarily on the continuation of a favorable mining environment in Brazil and our ability to freely sell our minerals;

● the perception of Brazil by the international community may affect us;

● exposure to foreign exchange fluctuations and capital controls may adversely affect our costs, earnings and the value of some of our assets;

● our common stock price may be volatile;

● we do not intend to pay regular future dividends on our common stock and thus stockholders must look to appreciation of our common stock to realize a gain on their investments;

● we may seek to raise additional funds, finance acquisitions, or develop strategic relationships by issuing securities that would dilute your ownership; and

● our Series A Convertible Preferred Stock ("Series A Preferred") has the effect of concentrating voting control over us in Marc Fogassa, our Chief Executive Officer and Chairman.

● our management may identify material weaknesses in the future that could adversely affect investor confidence, impair the value of our securities, and increase our cost of raising capital; and

● we incur significant costs as a result of operating as a public company, and our management will be required to devote substantial time to new compliance initiatives and corporate governance practices.

**Controlled Company**

Marc Fogassa, our Chief Executive Officer and Chairman, currently directly and indirectly through his control of Atlas Lithium, controls approximately 83.3% of the voting power of our capital stock and will control approximately [●]% of the combined voting power of our capital stock upon completion of this offering. As a result, we believe we may be a "controlled company," as such term is defined under the Nasdaq Listing Rules.

 **Foreign Private Issuer Status**

We are a foreign private issuer within the meaning of the rules under the Securities Exchange Act of 1934, as amended (the "Exchange Act"). As such, we are exempt from certain provisions applicable to United States domestic public companies. For example:

● we are not required to provide as many Exchange Act reports, or as frequently, as a domestic public company;

● for interim reporting, we are permitted to comply solely with our home country requirements, which are less rigorous than the rules that apply to domestic public companies;

● we are not required to provide the same level of disclosure on certain issues, such as executive compensation;

● we are exempt from provisions of Regulation FD aimed at preventing issuers from making selective disclosures of material non-public information;

● we are not required to comply with the sections of the Exchange Act regulating the solicitation of proxies, consents, or authorizations in respect of a security registered under the Exchange Act; and

● we are not required to comply with Section 16 of the Exchange Act requiring insiders to file public reports of their share ownership and trading activities and establishing insider liability for profits realized from any "short-swing" trading transaction.

**Corporate Information**

We were originally incorporated in Republic of the Marshall Islands on July 27, 2016 under the name "Jupiter Gold Corporation." On December 20, 2024, we changed our name to "Atlas Critical Minerals Corporation" Our principal place of business is located at Rua Antônio de Albuquerque, 156, Suite 1720, Belo Horizonte, Minas Gerais, Brazil, 30112-010 and our website address is www.atlascriticalminerals.com. The information contained on our website is not incorporated by reference into this prospectus, and you should not consider any information contained on, or that can be accessed through, our website as part of this prospectus or in deciding whether to purchase our common stock.

**THE OFFERING**

---

| | |
|:---|:---|
| **Securities Offered:** | [●] shares of common stock. |
| **Assumed Public Offering Price:** | $[●] per share of common stock, which is the midpoint of the estimated initial offering price range set forth on the cover page of this prospectus. |
| **Shares of Common Stock Outstanding before the Offering:** | [●] shares |
| **Shares of Common Stock to be Outstanding after this Offering:** | [●] shares (or [●] shares if the underwriters exercise their option to purchase additional shares in full) |
| **Over-Allotment Option:** | We have granted to the underwriters a 45-day option to purchase from us up to an additional [●] shares, representing 15% of the shares of common stock sold in the offering, solely to cover over-allotments, if any, at the public offering price per share, less the underwriting discounts. |
| **Use of Proceeds:** | We estimate that net proceeds to us from the offering will be approximately $[●] million, or approximately $[●] million if the underwriters exercise their option to purchase additional in full, after deducting underwriting discounts and commissions and estimated offering expenses payable by us.<br>We intend to use approximately $2,000,000 of the net proceeds from this offering for advancing our rare earths project in Minas Gerais (the "Alto Paranaiba Project"), approximately $2,000,000 of the net proceeds for our natural graphite project in Minas Gerais (the "Malacacheta Project"), and up to approximately $8,000,000 to pay Atlas Lithium cash in the event Atlas Lithium elects to receive cash in lieu of common stock upon exercise of the Option by the Company. See "Use of Proceeds" for a more complete description of the intended use of proceeds from this offering. |
| **OTC** **Trading Symbol** | Our common stock is presently quoted on the OTCQB under the symbol "JUPGF." |
| **Nasdaq Application** | We have applied to have our common stock listed on the Nasdaq Capital Market under the symbol "ATCX." No assurance can be given that our application will be approved. |
| **Risk Factors:** | Investing in our securities involves substantial risks. You should carefully review and consider the "Risk Factors" section of this prospectus beginning on page 12 and the other information in this prospectus for a discussion of the factors you should consider before you decide to invest in this offering. |
| **Lock-up:** | We, our directors, and officers have agreed with the underwriters not to offer for sale, issue, sell, contract to sell, pledge or otherwise dispose of any of our common stock or securities convertible into common stock for 180 days after the date of this prospectus. |
| **Representative's Warrant:** | We will issue to AGP, as representative of the underwriters, at the closing of this offering, warrants to purchase the number of shares of common stock equal to 6% of the aggregate number of shares of common stock sold in this offering (the "Representative's Warrants"). The Representative's Warrants are exercisable at any time and from time to time, in whole or in part, during the five-year period commencing six months after the effective date of the registration statement of which this prospectus forms a part. The registration statement of which this prospectus forms a part also registers the issuance of the shares of common stock issuable upon exercise of the Representative's Warrant. The exercise price of the Representative's Warrant will equal 115% of the assumed offering price per share of common stock. See "Underwriting." |

---

The number of shares of our common stock outstanding after the completion of this offering is based on [●] shares of our common stock outstanding as of [●], 2025 and reflecting the Reverse Stock Split, and excludes the following, as of the date of this prospectus:

● [1,210,000] shares of common stock issuable upon the exercise of outstanding options and warrants with a weighted average exercise price of $0.04 per share and a weighted time to expiration of 8.22 years;

● [●] shares of common stock reserved for the future issuance of awards under our 2016 Stock Incentive Plan;

● one share of common stock issuable upon the conversion of our outstanding Series A Preferred; and

● [12,767315] shares of common stock that may be issuable upon the exercise of the Option at the election of Atlas Lithium in the event it elects to be paid in common stock rather than cash.

Except as otherwise indicated herein, all information in this prospectus assumes the following:

● no exercise of the outstanding warrants or conversion of the Series A Preferred described above;

● no exercise by the underwriters of their option to purchase additional shares of common stock to cover over-allotments, if any;

● no exercise of the Representative's Warrants; and

● consummation of the Reverse Stock Split contemporaneously with the consummation of the offering.

**SUMMARY FINANCIAL DATA**

*The following table sets forth our selected financial data as of the dates and for the periods indicated. We have derived the statement of operations data for the years ended December 31, 2024, 2023 and 2022 from our audited financial statements included elsewhere in this prospectus. You should read this data together with our financial statements and related notes included elsewhere in this prospectus and the section in this prospectus entitled "Management's Discussion and Analysis of Financial Condition and Results of Operations." Our historical results for any prior period are not indicative of our future results.*

---

| | | | |
|:---|:---|:---|:---|
|  | **Year Ended December 31,** | **Year Ended December 31,** | **Year Ended December 31,** |
|  | **2024** | **2023** | **2022** |
| Revenue | $667131 | $- | $- |
| Cost of revenue | $(401437) | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gross profit | $265694 | $- | $- |
| Operating expenses: |  |  |  |
| &nbsp;&nbsp;&nbsp;General and administrative | $(1054124) | $(900943) | $(553235) |
| &nbsp;&nbsp;&nbsp;Stock based compensation | $(849513) | $(115038) | $(104140) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total operating expenses | $(1903637) | $(1015531) | $(657375) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss from operations | $(1637943) | $(1015531) | $(657375) |
| Other (expense) income: |  |  |  |
| &nbsp;&nbsp;&nbsp;<u>Finance results</u> | $(31716) | $(930) |  |
| &nbsp;&nbsp;&nbsp;Other income (expense) | $(24577) | $(55384) | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Other income (expense) | $(56293) | $(56314) | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss before income taxes | $(1694236) | $(1071845) | $(657375) |
| Income taxes | $(18887) | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net loss | $(1713123) | $(1071845) | $(657375) |
| Basic and diluted loss per share |  |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net loss per share | $(0.13) | $(0.12) | $(0.08) |
| Weighted-average number of common shares outstanding: |  |  |  |
| &nbsp;&nbsp;&nbsp;Basic and diluted | 13447169 | 9029706 | 8118737 |
| Comprehensive loss: |  |  |  |
| &nbsp;&nbsp;&nbsp;Net loss | $(1713123) | $(1071845) | $(657375) |
| &nbsp;&nbsp;&nbsp;Foreign currency translation adjustment | $(63575) | $(35489) | $(6950) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Comprehensive loss | $(1776698) | $(1107334) | $(664325) |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
|  | **December 31,** | **December 31,** | **December 31,** | **As of December 31, 2024** | |
|  | **2024** | **2023** | **2022** | **Proforma** | **Proforma**,<br>**as adjusted<sup>(1)</sup>** |
|  | | | | **(unaudited)** | **(unaudited)** |
| **Balance Sheet Data:** |  |  |  |  |  |
| Cash and cash equivalents | 396216 | 92813 | 25438 | $— |  |
| Working capital | (563949) | (637684) | 4855 |  |  |
| Total assets | 2380910 | 417134 | 78866 |  |  |
| Current liabilities | 1227371 | 734118 | 20583 |  |  |
| Other noncurrent liabilities | 33961 | 4729 |  |  |  |
| Share capital | 10934470 | 3944961 | 3217623 |  |  |
| Accumulated other comprehensive loss | (669350) | (66366) | (30877) |  |  |
| Accumulated deficit | (9145542) | (4200308) | (3128463) |  |  |
| &nbsp;&nbsp;&nbsp;Total stockholders' equity | 1119578 | (321713) | 58283 |  |  |
| Total liabilities and stockholders' equity | 2380910 | 417134 | 78866 |  |  |

---

(1) Pro
 forma as adjusted balance sheet data reflects the pro forma items described immediately above plus our sale of [●] shares of
 common stock in this offering at an assumed underwritten offering price of $[●] per share, which is the midpoint
 of the estimated initial offering price range set forth on the cover page of this prospectus, after deducting underwriting discounts
 and commissions and estimated offering expenses payable by us. Pro forma as adjusted balance sheet data is illustrative only and
 will change based on the actual underwritten offering price and other terms of this offering determined at pricing. Each $1.00
 increase or decrease in the assumed underwritten offering would increase or decrease pro forma as adjusted cash, total assets
 and total stockholders' deficit by approximately $[●], assuming that the number of shares of common stock offered by
 us, as set forth on the cover page of this prospectus, remains the same, and after deducting underwriting discounts and commissions
 and estimated offering expenses payable by us. We may also increase or decrease the number of shares we are offering. A 10% increase
 or decrease in the number of shares offered by us would increase or decrease pro forma as adjusted cash, total assets and total stockholders'
 deficit by approximately $[●], assuming that the assumed price to public remains the same, and after deducting underwriting
 discounts and commissions and estimated offering expenses payable by us. These unaudited pro forma adjustments are based upon available
 information and certain assumptions we believe are reasonable under the circumstances, and do not include any adjustments in the
 event the Company elects to exercise the Option to acquire additional mineral rights from Atlas Lithium under the terms of the Option
 Agreement.

**RISK FACTORS**

*Investing in our common stock involves a high degree of risk. You should carefully consider the risks described below, as well as the other information in this prospectus, including our financial statements and the related notes thereto and "Management's Discussion and Analysis of Financial Condition and Results of Operations," before deciding whether to invest in our securities. The occurrence of any of the events or developments described below could harm our business, financial condition, operating results, and growth prospects. In such an event, the market price of our common stock could decline, and you may lose all or part of your investment. Additional risks and uncertainties not presently known to us or that we currently deem immaterial also may impair our business operations.*

**<u>Business Risks</u>**

***Our future performance is difficult to evaluate because we have a limited operating history.***

Although we were incorporated in 2016, we only began to implement our current business strategy in 2024. Our current business strategy is focused on the exploration of critical minerals, and, through legacy operations, the exploration of iron and gold as well as quartzite production and sales. While we have had a small amount of revenue from the sale of quartzite mined by us, we have not realized any revenues to date from the sale of other minerals within our portfolio. We have incurred losses since our inception resulting in an accumulated deficit of $10,136,978 as of December 31, 2024, and further losses are anticipated in the development of our business. Our operating cash flow needs have been financed primarily through debt or equity and not through cash flows derived from our operations. As a result, we have little historical financial and operating information available to help you evaluate and predict our future performance. There can be no assurance that our efforts will be successful or that we will ultimately be able to attain profitability.

***There is substantial doubt about our ability to continue as a going concern.***

We have received an unqualified opinion that included an explanatory paragraph on "going concern" from our independent registered public accounting firm, reflecting substantial doubt about our ability to continue as a going concern. Since we have been in business, we have not been profitable and such condition raises substantial doubt about our ability to continue as a going concern. There is uncertainty regarding our ability to implement our business plan and to grow our business to a greater extent than we can with our existing financial resources without additional financing. Our long-term future growth and success is dependent upon our ability to raise additional capital and implement our business plan. There is no assurance that we will be successful in implementing our business plan or that we will be able to generate sufficient cash from operations, the sale of securities, or the borrowing of funds, on favorable terms or at all. Our inability to generate significant revenue or obtain additional financing could have a material adverse effect on our ability to sustain continued operations, fully implement our business plan or grow our business.

***We are an exploration-stage company, and there is no guarantee that our properties will result in the commercial extraction of mineral deposits.***

We are engaged in the business of exploring and developing mineral properties with the intention of locating economic deposits of minerals. An economic deposit is a mineral property which can be reasonably expected to generate profits upon extraction and commercialization of its minerals after considering all costs involved. Substantially all of our property interests are in the exploration stage. Accordingly, it is unlikely that we will realize profits from these properties in the short term, and we also cannot assure you that we will realize profits in the medium to long term. Any profitability in the future from our business will be dependent upon the development of at least one economic deposit and most likely further exploration and development of other economic deposits, each of which is subject to numerous risks.

Further, we cannot assure you that, even if an economic deposit of minerals is located with respect to our property interests currently in the exploration stage, any of our such interests can be commercially mined. The exploration and development of mineral deposits involves a high degree of financial risk over a significant period which a combination of careful evaluation, experience and knowledge of management may not eliminate. While discovery of additional ore-bearing deposits may result in substantial rewards, few properties which are explored are ultimately developed into producing mines. Major expenses may be required to establish reserves by drilling and constructing mining and processing facilities at a particular site. It is impossible to ensure that our current exploration programs will result in profitable commercial mining operations. The profitability of our operations will be, in part, related to the cost and success of our exploration and development programs. which may be affected by several factors, such as the factors set forth under the heading "We face risks related to mining, exploration and mine construction, if warranted, on our properties" below. Additional expenditures are required to establish reserves which are sufficient to commercially mine and to construct, complete and install mining and processing facilities in those properties that are mined and developed.

In addition, exploration-stage projects like ours have no operating history upon which to base estimates of future operating costs and capital requirements. Exploration project items, such as any future estimates of reserves, metal recoveries or cash operating costs will to a large extent be based upon the interpretation of geologic data, obtained from a limited number of drill holes and other sampling techniques, as well as future feasibility studies. Actual operating costs and economic returns of all exploration projects may materially differ from the costs and returns estimated, and accordingly our financial condition, results of operations, and cash flows may be negatively affected.

***Because the probability of an individual prospective mineral deposit ever having reserves is not known, any funds spent on exploration and evaluation may be lost if our properties do not contain any reserves.***

We are an exploration stage company, and we have no "reserves" as such term is defined by Regulation S-K 1300. We cannot assure you about the existence of economically extractable mineralization at this time, nor about the quantity or grade of any mineralization we may have found. Because the probability of an individual prospect ever having reserves is uncertain, any funds spent on evaluation and exploration may be lost and our properties may not contain any reserves. Even if we confirm reserves on our properties, any quantity or grade of reserves we indicate must be considered as estimates only until such reserves are mined. We do not know with certainty that economically recoverable minerals exist on our properties. In addition, the quantity of any reserves may vary depending on commodity prices. Any material change in the quantity or grade of reserves may affect the economic viability of our properties. Further, our lack of established reserves means that we are uncertain about our ability to generate revenue from our operations.

***We face risks related to mining, exploration and mine construction, if warranted, on our properties.***

Our level of profitability, if any, in future years will depend to a great degree on whether our exploration-stage properties can be brought into production. It is impossible to ensure that the current and future exploration programs and/or feasibility studies on our existing properties will establish reserves. Whether it will be economically feasible to extract a mineral depends on a number of factors, including, but not limited to: the particular attributes of the deposit, such as size, grade and proximity to infrastructure; mineral prices; mining, processing and transportation costs; the willingness of lenders and investors to provide project financing; labor costs and possible labor strikes; and governmental regulations, including, without limitation, regulations relating to prices, taxes, royalties, land tenure, land use, importing and exporting materials, foreign exchange, environmental protection, employment, worker safety, transportation, and reclamation and closure obligations. The exact effect of these factors cannot be accurately predicted, but the combination of these factors may result in us receiving an inadequate return on invested capital.

***We are subject to the effects of changing prices.***

Inflation rates have been relatively low and stable over the previous three decades; however, inflation rates rose significantly between 2021 and 2024 due in part to supply chain disruptions and the effects of the COVID-19 pandemic. Although inflation rates have stabilized at a moderate level, future economic shocks, such as those due to tariffs and trade wars, could increase inflation levels going forward. We bear the costs of operating and maintaining our assets, including labor and material costs as well as recertification and dry dock costs. Although we may be able to reduce some of our exposure to price increases through the rates we charge, competitive market pressures may affect our ability to pass along price adjustments, which may result in reductions in our operating margins and cash flows in the future.

***We are subject to substantial competition in our markets, which could decrease our market share and profitability in the regions in which we operate.***

The critical minerals markets in Brazil, North America, Asia and the other markets in which we will operate are highly competitive. We face consolidated markets with substantial competition from domestic and international competitors.

Our competitive position is impacted by price, logistics, production costs, exchange rate, among other factors. Some of our global competitors have greater financial and marketing resources, larger customer bases and a greater breadth of product offerings than we do. In addition, some of these competitors may be able to obtain financing on terms more favorable than we are. If we are unable to remain competitive, or our competitors are more aggressive in competing with us, this may have a material adverse effect on us.

***Our long-term success will depend ultimately on our ability to achieve and maintain profitability and to develop positive cash flow from our mining activities.***

Our long-term success, including the recoverability of the carrying values of our assets, our ability to continue with exploration, development and commissioning and mining activities on our existing projects or to acquire additional projects, will depend ultimately on our ability to achieve and maintain profitability and to develop positive cash flow from our operations by establishing ore bodies that contain commercially recoverable minerals and to develop these into profitable mining activities. We cannot assure you that any ore body that we extract mineralized materials from will result in achieving and maintaining profitability and developing positive cash flow.

***We depend on our ability to successfully access the capital and financial markets. Any inability to access the capital or financial markets may limit our ability to fund our ongoing operations, execute our business plan or pursue investments that we may rely on for future growth and could result in the failure of our business.***

We need, and for the foreseeable future will continue to need, additional equity or debt financing beyond our existing cash to maintain and expand our operations. Until commercial production is achieved from one of our larger projects, we will continue to incur operating and investing net cash outflows associated with, among other things maintaining and acquiring exploration properties, undertaking ongoing exploration activities and the development of mines. As a result, we rely on access to capital markets as a source of funding for our capital and operating requirements. We cannot assure you that such additional funding will be available to us on satisfactory terms, or at all.

There is, however, no guarantee that we will be able to secure any additional funding or be able to secure funding which will provide us with sufficient funds to meet our objectives, which may adversely affect our business and financial position. If we are unable to obtain additional financing as needed, at competitive rates, our ability to fund our current operations and implement our business plan and strategy will be affected, and we would be required to reduce the scope of our operations and scale back our exploration, development and mining programs. If such an inability to obtain financing persists, such measures could include eliminating operations or even seeking reorganization, in which case the holders of our securities could lose a substantial part or all of their investment.

***Our quarterly and annual revenue, operating results and financial results are likely to fluctuate significantly in future periods.***

Our quarterly and annual revenue, operating results and financial results are difficult to predict and may fluctuate significantly from period to period. Our revenues, net income and results of operations may fluctuate as a result of a variety of factors that are outside our control including, but not limited to, lack of sufficient working capital, equipment malfunction and breakdowns, inability to timely find spare machines or parts to fix the broken equipment, regulatory or licensing delays, severe weather phenomena, labor shortages, commodity price fluctuations, cost of key inputs such as fuel and electricity, currency fluctuation.

***Our ability to manage growth will have an impact on our business, financial condition and results of operations.***

Future growth may place strains on our financial, technical, operational and administrative resources and cause us to rely more on project partners and independent contractors, potentially adversely affecting our financial position and results of operations. Our ability to grow will depend on several factors, including:

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to develop existing projects;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to identify new projects;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to continue to retain and attract skilled personnel;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to maintain or enter into relationships with project partners and independent contractors;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● the results of our exploration programs;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● the market prices for our minerals;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our access to capital;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to enter into agreements for the sale of our minerals;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to obtain and maintain requisite licenses and permits;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● global demand for critical minerals;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● the global trade environment and the existence of trade barriers such as tariffs or sanctions;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● volatility resulting from international conflicts or geopolitical tensions;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● natural or man-made disasters and severe climate or weather events;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● government policies with respect to climate change or natural resource conservation; and

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● Fluctuations in inflation and currency exchange rates.

We may not be successful in upgrading our technical, operational and administrative resources or increasing our internal resources sufficiently to provide certain of the services currently provided by third parties, and we may not be able to maintain or enter into new relationships with project partners and independent contractors on financially attractive terms, if at all. Our inability to achieve or manage growth may materially and adversely affect our business, results of operations and financial condition.

***Our operations and projects are subject to a range of transitional and physical risks related to climate change.***

We believe that climate change has the potential to impact on the regions and sites in which we operate, as well as the surrounding communities. Long-term potential physical climate risks include, but are not limited to, higher temperature in all regions, higher intensity storm events in all regions, impacts to annual precipitation depending upon the latitude and proximity of the site to oceans.

Physical risks related to extreme weather events such as extreme precipitation, flooding, longer wet or dry seasons, flooding and drought conditions, increased temperatures, sea level rise, mine flooding, landslides, wildfires or brushfires, or more severe storms may have financial implications for the business. In particular, the effects of changes in rainfall and intensities, water shortages and changing storm patterns have from time to time adversely impacted, and may in the future adversely impact, our costs, production levels and financial performance.

There is also the potential for disruption to transport routes associated with the distribution of our products. For example, essential roads for entering in our mine sites, may be subject to a risk of flooding due to the potential for an increase in average temperatures, which may be related to climate change. Severe storm events can also result in unpermitted off-site discharges, slope instability, mine pit erosion and structural failures, tailings storage facility overtopping and other impacts, including water storage and treatment facility capacity considerations. Extended dry seasons or unseasonal dry conditions could exacerbate dust generation from operating activities that may require additional controls for continued operation or result in compliance breaches. Changing climatic conditions may also affect the likelihood of meeting closure success criteria and require adjustments to mine site rehabilitation and closure plans. The higher potential for extreme heat conditions may affect equipment efficiency.

Such events can temporarily slow or halt operations due to physical damage to assets, reduced worker productivity for safety protocols on site related to extreme temperatures or lightening events, worker aviation and bus transport to or from the site, and local or global supply route disruptions that may limit transport of essential materials, chemicals and supplies, which could have an adverse impact on our results of operations and financial position. Additional financial impacts could include increased capital or operating costs to increase water storage and treatment capacity, obtain or develop maintenance and monitoring technologies, increase resiliency of facilities and establish supplier climate resiliency and contingency plans.

An increase in frequency and duration of extreme weather conditions can be followed by extended power outages. Energy disruptions can have an adverse impact on our results of operations and financial position due to production delays or additional costs to ensure business continuity through reliable sources of on-site power generation. Energy transmission and supply may be impacted by wildfires, which may interrupt electrical power transmission lines to mine sites, and that may pose risks to on-site facilities and energy generators, fuel dispensing systems and supplies. In jurisdictions that rely on purchased hydroelectric power, such as in Brazil, extreme drought and extended dry seasons may impact the electric utility's water supplies needed to generate hydroelectric power purchased by the mine to run operations, which would result in higher costs and/or limit energy availability for continuity of operations as well as impact our environmental systems and processes.

***Our operations and projects are subject to a range of risks related to transitioning the business to meet regulatory, societal and investor expectations for operating in a low-carbon economy.***

Climate change and the transition to a low-carbon economy is expected to impact on our operations in a number of ways. Mining activities are an energy and fuel intensive business, currently resulting in a significant carbon footprint. Transitioning to a low-carbon economy will require significant investment and may entail extensive policy, legal, technology, and market changes to address mitigation and adaptation requirements related to climate change. Depending on the nature, speed, focus and jurisdiction of these changes, transition risks may pose varying levels of financial and reputational risk to the business.

A number of governments or governmental bodies have introduced or are contemplating regulatory changes in response to the potential impacts of climate change that are viewed as the result of emissions from the combustion of carbon-based fuels.

Policy and regulatory risk related to actual and proposed changes in climate- and water-related laws, regulations and taxes developed to regulate the transition to a low-carbon economy may result in increased costs for our operations and our suppliers, including increased energy, capital equipment, environmental monitoring and reporting and other costs to comply with such regulations. Regulatory uncertainty may cause us to incur higher costs and lower economic returns than originally estimated for new development projects and operations, including closure reclamation obligations.

The development and deployment of technological improvements or innovations will be required to support the transition to a low-carbon economy, which could result in write-offs and early retirement of existing assets, increased costs to adopt and deploy new practices and processing including planning and design for mines, development of alternative power sources, site level efficiencies and other capital investments. Our investments in these technologies may also expose us to legal, operational and reputational and other risks. The pace of development of such technologies may be inadequate, such technologies may be insufficient, and we may not be able to deploy such technologies at a commercial scale.

There will be varied and complex market impacts due to climate change and the transition to a low-carbon economy. There will be shifts in supply and demand for certain commodities, products and services in connection with evolving consumer and investor sentiments. Market perceptions of the mining sector, and, in particular, the role that certain metals will or will not play in the transition to a low-carbon economy remains uncertain. Potential financial impacts may include reduced investment in certain minerals due to shifts in investor sentiment, increased production costs due to changing input prices, re-pricing of land valuation and assets, potential cost increases by insurers and lenders, and potential increases in taxation of the mining and metals sector.

Should the mining and metals sector not respond quickly enough to meeting globally accepted science-based reductions required to mitigate the long-term impacts of climate change, industry members may be subject to an increased risk of future climate litigation. In the U.S. and Canada, lawsuits have been filed against oil and gas companies to assign liability for climate-related impacts. Over time, litigation may also apply to other resource intensive sectors that fail to set and/or meet long-term reduction targets. While we are not currently subject to any lawsuits related to climate, no assurances can be provided that similar suits will not be brought in the future.

There is currently no generally accepted global definition (legal, regulatory or otherwise) of, nor market consensus as to what criteria qualify as, "green," "social," "sustainable" or "sustainability-linked" (and, in addition, the requirements of any such label may evolve from time to time), and therefore no assurance is or can be given that we will meet any or all investor expectations.

***We are vulnerable to concentration risks because our operations are currently exclusive to Brazil.***

Our mining activities are currently entirely focused on Brazil. Because of our geographic concentration, our operations are more vulnerable to local economic downturns and adverse project-specific risks than those of larger, more diversified companies.

***We may not realize the anticipated benefits of the Option Agreement (as defined below) with Atlas Lithium, and if we are unable to consummate the transactions contemplated thereby, we will be unable to explore and develop the mineral rights that we would acquire under the Option Agreement.***

Exercising the Option entered into with Atlas Lithium would materially increase the number of our mineral rights owned and available for exploration and development activities.

We may be unable to exercise the Option for a number of reasons. For example, Atlas Lithium may in its discretion elect to receive consideration for the Option Agreement exercise in the form of cash or our common stock. If Atlas Lithium requires payment in cash, we will be unable to exercise the Option Agreement unless we are able to arrange financing prior to the expiration of the term of such Option Agreement, and there can be no assurance that we would be able to arrange such financing on a timely basis or at all. The Option Agreement also provides that we may only exercise the Option Agreement upon or within twelve months after filing a Registration Statement on Form F-1 in connection with an uplisting of our common stock to Nasdaq. Although we have applied to list our common stock on Nasdaq, no assurance can be given that our application will be approved. Furthermore, our reputation may be negatively impacted if we fail to exercise the Option Agreement, and such reputational harm could affect our ability to enter into future agreements to acquire mineral rights on terms that are favorable to us, or at all.

***We are dependent upon information technology and operational technology systems, which are subject to disruption, damage, failure or cybersecurity attacks and risks associated with implementation, upgrade, operation and integration.***

Our business operations rely heavily on technology platforms and systems to manage and optimize our diverse mining assets. These systems are critical to ensuring safety, operational efficiency, cost management, and meeting environmental, social, and governance (ESG) objectives. However, the increasing sophistication of cybersecurity threats, coupled with the adoption of emerging technologies such as artificial intelligence (AI), automation, and cloud-based platforms, poses important risks to our operations, financial performance, and reputation.

Our systems, as well as those of our third-party service providers, vendors, and partners, face a wide range of cybersecurity threats, including: Ransomware, malware, and phishing schemes targeting critical systems and sensitive data; unauthorized access and breaches affecting intellectual property, financial information, and operational data; vulnerabilities introduced through supply chain dependencies and third-party security weaknesses; human error, design flaws, and system misconfigurations.

The adoption of new technologies and the adoption of remote and flexible work arrangements enhances our operational capabilities but introduces additional risks. AI, for example, has the potential to improve efficiency and safety, it also presents unique vulnerabilities, including algorithmic biases that could lead to inaccurate decisions or unintended outcomes; data integrity risks, such as manipulation or corruption of datasets used to train AI systems; unauthorized access or exploitation of AI-powered systems, potentially compromising operations or sensitive data.

Additionally, the increased interconnectivity of automated and cloud-based systems and increase of remote workforce expands our cyber-attack surface, requiring heightened vigilance and advanced security measures.

Our cybersecurity program is designed to protect our technology platforms and address risks associated with the implementation of emerging technologies. While these efforts are designed to align with industry's best practices, no system can eliminate all risks, especially given the pace of technological advancement and the evolving nature and increased frequency of cyber threats. In addition, we do not carry specific cybersecurity insurance to help mitigate such costs due to increased premiums and limited market availability.

Therefore, a successful cyberattack or other cybersecurity incident could result in future production and operational downtimes, data corruption, and unauthorized disclosure of sensitive information. Any material breaches, disruptions, or loss of business-critical information, our systems and procedures for preparing and protecting against such attempts and mitigating such risks may prove to be insufficient against future attacks. These events may subject us to significant expenses, remediation costs, disputes, financial losses, regulatory actions or investigations, litigation, reputational harm, and delays in the deployment of critical technologies, that could result in damages, material fines and penalties, and harm to our reputation, any of which could have a significant effect on our financial condition, results of operations, liquidity, and cash flows. The risks associated with the implementation of emerging technologies, if not effectively mitigated, could undermine the benefits of these advancements and impact our competitive position.

In addition, we are subject to various legislation, regulations, directives and guidelines from federal, state, local and foreign agencies, that are intended to strengthen cybersecurity measures required for information and operational technology, and that apply to the collection, use, retention, protection, disclosure, transfer and other processing of personal information. Failure to comply with any of applicable legal requirements could result in enforcement action against us, including fines, which could harm our reputation and have a significant effect on our financial condition, results of operations, liquidity, and cash flows.

***We depend upon Marc Fogassa, our Founder, Chief Executive Officer and Chairman.***

Our success is largely dependent upon the personal efforts of Marc Fogassa, our Founder, Chief Executive Officer and Chairman. The loss of the services of Mr. Fogassa would have a material adverse effect on our business and prospects. See "Management."

***Our growth will require new personnel, which we will be required to recruit, hire, train and retain.***

Our ability to recruit and assimilate new personnel will be critical to our performance. We will be required to recruit additional personnel and to train, motivate and manage employees, and our inability to successfully do so will adversely affect our plans.

We expect significant growth in the number of our employees if we determine that a mine at any of our properties is commercially feasible, we are able to raise sufficient funding and we elect to develop the property. This growth will place substantial demands on us and our management. Our ability to assimilate new personnel will be critical to our performance. We will be required to recruit additional personnel and to train, motivate and manage employees. We will also have to adopt and implement new systems in all aspects of our operations. This will be particularly critical in the event we decide not to use contract miners on any of our properties. We have no assurance that we will be able to recruit the personnel required to execute our programs or to manage these changes successfully.

***Our workforce will be represented by labor unions and therefore be subject to collective bargaining agreements.***

Production at our mines will be dependent upon the efforts of our employees and, consequently, our maintenance of good relationships with our employees. Due to union activities or other employee actions, we could experience labor disputes, work stops or other disruptions in production that could adversely affect us.

A portion of our workforce will be represented by labor unions, as mandated under Brazilian law, and will therefore be subject to collective bargaining agreements, and if we are unable to enter into new agreements or renew existing agreements before they expire, our workers subject to collective bargaining agreements could engage in strikes or other labor actions that could materially disrupt our ability to provide services to our customers.

We cannot predict the outcome of future negotiations of collective bargaining agreements covering potential future employees.

***Certain executive officers and directors may be in a position of conflict of interest.***

Marc Fogassa, our Founder, Chief Executive and Chairman, also serves as chief executive officer and chairman of Atlas Lithium Corporation. Rodrigo Nazareth Menck, our Chief Financial Officer and Treasurer, is a director at Atlas Lithium. Joel de Paiva Monteiro, Esq., one of our directors, is the Vice President of Administration, ESG Chief, and Secretary of Atlas Lithium. Areli Nogueira da Silva Júnior, one of our directors, is the Vice President of Mineral Exploration at Atlas Lithium. Atlas Lithium has significant equity ownership in us. These executives' and directors' services to both us and Atlas Lithium may result in potential conflicts of interest arising from their divided responsibilities and loyalties. As a result, they might not be able to devote sufficient time and attention to each company, which could negatively impact decision-making and performance. Furthermore, when new corporate opportunities are introduced to such executive officers or directors, potential conflicts of interest may arise in how such corporate opportunities are allocated between us and Atlas Lithium. Any decision made by such persons involving us will be made in accordance with their duties and obligations to deal fairly and in good faith with us and such other companies. In addition, any such officer or director will declare, and refrain from voting on, any matter in which they may have a material interest.

**<u>Regulatory and Industry Risks</u>**

***The mining industry subjects us to several risks.***

In our operations, we are subject to the risks normally encountered in the mining industry, such as:

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● the discovery of unusual or unexpected geological formations;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● accidental fires, floods, earthquakes or other natural disasters;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● unplanned power outages and water shortages;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● controlling water and other similar mining hazards;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● operating labor disruptions and labor disputes;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● the ability to obtain suitable or adequate machinery, equipment, or labor;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our liability for pollution or other hazards; and

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● other known and unknown risks involved in the conduct of exploration and operation of mines.

The nature of these risks is such that liabilities could exceed any applicable insurance policy limits or could be excluded from coverage. There are also risks against which we cannot insure or against which we may elect not to insure. The potential costs which could be associated with any liabilities not covered by insurance, or in excess of insurance coverage, or compliance with applicable laws and regulations may cause substantial delays and require significant capital outlays, adversely affecting our future earnings and competitive position and, potentially, our financial viability.

***Our operations and mineral projects will be subject to significant governmental regulations, including extensive environmental laws and regulations.***

Mining activities in Brazil are subject to extensive federal, state, and local laws and regulations governing environmental protection, natural resources, prospecting, development, production, post-closure reclamation costs, taxes, labor standards and occupational health and safety laws and regulations, including mine safety, toxic substances and other matters. The costs associated with compliance with such laws and regulations can be substantial. In addition, changes in such laws and regulations, or more restrictive interpretations of current laws and regulations by governmental authorities, could result in unanticipated capital expenditures, expenses, or restrictions on, or suspensions of our operations and delays in the development of our properties.

Our exploration, development, mining and processing operations are subject to extensive laws and regulations governing land use and the protection of the environment, which generally apply to air and water quality, protection of endangered, protected or other specified species, hazardous waste management and reclamation. We have made, and expect to make in the future, significant expenditures to comply with such laws and regulations. Compliance with these laws and regulations imposes substantial costs and burdens, and can cause delays in obtaining, or failure to obtain, government permits and approvals which may adversely impact our closure processes and operations.

Increased global attention or regulation of consumption of water by industrial activities, as well as water quality discharge, and restricting or prohibiting the use of cyanide and other hazardous substances in processing activities could similarly have an adverse impact on our results of operations and financial position due to increased compliance and input costs.

***We are required to obtain governmental permits in order to conduct development and mining operations, a process which is often costly and time-consuming.***

We are required to obtain and renew governmental permits for our exploration activities and, prior to developing or mining any mineralization that we discover, we will be required to obtain new governmental permits. Obtaining and renewing governmental permits is a complex, costly and time-consuming process. The timeliness and success of permitting efforts are contingent upon many variables not within our control, including the interpretation of permit approval requirements administered by the applicable permitting authority. We may not be able to obtain or renew the permits that are necessary for our planned operations, or the cost and time required to obtain or renew such permits may exceed our expectations. Any unexpected delays or costs associated with the permitting process could delay the exploration, development or operation of our properties, which in turn could materially adversely affect our future revenues and profitability. In addition, key permits and approvals may be revoked or suspended or may be changed in a manner that adversely affects our activities.

Private parties, such as environmental activists, frequently attempt to intervene in the permitting process and to persuade regulators to deny necessary permits or seek to overturn permits that have been issued. Obtaining the necessary government permits involves numerous jurisdictions, public hearings and possibly costly undertakings. These third-party actions can materially increase the costs and cause delays in the permitting process and could cause us to not proceed with the development or operation of a property. In addition, our ability to successfully obtain key permits and approvals to explore for, develop, operate and expand operations will likely depend on our ability to undertake such activities in a manner consistent with the creation of social and economic benefits in the surrounding communities, which may or may not be required by law. Our ability to obtain permits and approvals and to successfully operate in particular communities may be adversely affected by real or perceived detrimental events associated with our activities.

***Compliance with environmental regulations and litigation based on environmental regulations could require significant expenditures.***

Environmental regulations mandate, among other things, the maintenance of air and water quality standards, and the rules on land development and reclamation. They also set forth limitations on the generation, transportation, storage, and disposal of solid and hazardous waste. Environmental legislation is evolving in a manner that may require stricter standards and enforcement, increased fines and penalties for non-compliance, more stringent environmental assessments of proposed projects, and a heightened degree of responsibility for mining companies and their officers, directors and employees. In connection with our current exploration activities or with our prior mining operations, we may incur environmental costs that could have a material adverse effect on our financial condition and results of operations. Any failure to remedy an environmental problem could require us to suspend operations or enter into interim compliance measures pending completion of the required remedy.

Moreover, government authorities and private parties may bring lawsuits based upon damage to property and injury to persons resulting from the environmental, health and safety impacts of prior and current operations, including operations conducted by other mining companies many years ago at sites located on properties that we currently own or formerly owned. These lawsuits could lead to the imposition of substantial fines, remediation costs, penalties and other civil and criminal sanctions. We cannot assure you that any such law, regulation, enforcement or private claim would not have a material adverse effect on our financial condition, results of operations or cash flows.

***Our operations are subject to substantial health and safety regulations.***

Our operations are subject to extensive and complex laws and regulations governing worker health and safety across our operating regions, and our failure to comply with applicable legal requirements can result in substantial penalties. Future changes in applicable laws, regulations, permits and approvals or changes in their enforcement or regulatory interpretation could substantially increase costs to achieve compliance, leading to the revocation of existing or future exploration or mining rights or otherwise have an adverse impact on our results of operations and financial position.

Our mines are inspected on a regular basis by government regulators who may issue citations and orders when they believe a violation has occurred under local mining regulations. If inspections result in an alleged violation, we may be subject to fines, penalties or sanctions and our mining operations could be subject to temporary or extended closures.

In addition to potential government restrictions and regulatory fines, penalties or sanctions, our ability to operate and thus our results of operations and financial position could be adversely affected by accidents, injuries, fatalities, or events that impact our workforce or that otherwise are, or are perceived to be, detrimental to the health and safety of our employees, the environment or the communities in which we operate.

***Mineral prices are subject to unpredictable fluctuations.***

Portions of our revenues may come from the extraction and sale of minerals. Our level of profitability, if any, in future years will depend to a great degree on the prices of minerals set by global markets. The price of minerals may fluctuate widely and is affected by numerous factors beyond our control, including international, economic and political trends, expectations of inflation, currency exchange fluctuations, interest rates, global or regional consumptive patterns, speculative activities, increased production due to new extraction developments and improved extraction and production methods and technological changes in the markets for the end products. The effect of these factors on the price of minerals, and therefore the economic viability of any of our exploration properties, cannot accurately be predicted.

***We are dependent on the continued recognition of and validity of the title to our mineral rights, and preserving title may be costly.***

We rely on the continued validity of our mineral rights to each of our mineral properties. Any challenge to the title to our mineral rights would proceed as a petition to ANM, and such a challenge would be costly. In addition, ANM has the authority to determine the boundaries of mineral rights in Brazil, which is normally done to accommodate new and unforeseen events, including, by way of example, the passage of a new electric grid or the creation of a new environmental preserve. Depending on the number of mineral rights impacted, any change in the boundaries of our mineral rights could potentially affect a given project. In the unlikely event of a successful challenge to ANM that we are not the rightful owner of a mineral right that is currently titled to us, following an administrative process, and appeal, or in the event of a change in the boundaries of our mineral rights, such successful challenge or alteration of boundaries may have a material adverse effect on our planned operations, and result in significant financial losses that affect our business as a whole.

***As a foreign private issuer, we are permitted to file less information with the SEC than a domestic issuer.***

As a foreign private issuer, we are exempt from certain rules under the Exchange Act that impose requirements for proxy solicitations under Section 14 of the Exchange Act. In addition, our officers, directors and principal shareholders are exempt from the reporting and "short-swing" profit recovery provisions of Section 16 of the Exchange Act. Moreover, we are not required to file periodic reports and financial statements with the SEC as frequently or as promptly as a domestic issuer, nor are we generally required to comply with the SEC's Regulation FD, which restricts the selective disclosure of material non-public information. For as long as we are a "foreign private issuer," we intend to file our annual financial statements on Form 20-F and furnish our semi-annual financial statements on Form 6-K to the SEC as long as we are subject to the reporting requirements of Section 13 or 15(d) of the Exchange Act. However, the information we file or furnish is not the same as the information that is required in annual on Form 10-K or Form 10-Q for U.S. domestic issuers. Accordingly, there may be less information publicly available concerning us then there is for a company that files as a domestic issuer.

***We may lose our foreign private issuer status, which would then require us to comply with the Exchange Act's domestic reporting regime and cause us to incur additional legal, accounting and other expenses.***

We are required to determine our status as a foreign private issuer on an annual basis at the end of our second fiscal quarter. In order to maintain our current status as a foreign private issuer, either (1) a majority of our Ordinary Shares must be either directly or indirectly owned of record by non-residents of the United States or (2) (a) a majority of our executive officers or directors must not be U.S. citizens or residents, (b) more than 50% of our assets cannot be located in the United States and (c) our business must be administered principally outside the United States. If we lost this status, we would be required to comply with the Exchange Act reporting and other requirements applicable to U.S. domestic issuers, which are more detailed and extensive than the requirements for foreign private issuers. We may also be required to make changes in our corporate governance practices and to comply with United States generally accepted accounting principles, as opposed to IFRS. The regulatory and compliance costs to us under U.S. securities laws if we are required to comply with the reporting requirements applicable to a U.S. domestic issuer may be higher than the cost we would incur as a foreign private issuer. As a result, we expect that a loss of foreign private issuer status would increase our legal and financial compliance costs.

***Because we are a foreign private issuer and are exempt from certain Nasdaq corporate governance standards applicable to U.S. issuers, you will have less protection than you would have if we were a domestic issuer.***

Nasdaq Listing Rules require listed companies to have, among other things, a majority of its board members be independent. As a foreign private issuer, however, we are permitted to, and we may follow home country practice in lieu of the above requirements, or we may choose to comply with the above requirement within one year of listing. The corporate governance practice in our home country does not require a majority of our board to consist of independent directors. Thus, although a director must act in the best interests of the Company, it is possible that fewer board members will be exercising independent judgment and the level of board oversight on the management of our company may decrease as a result. In addition, Nasdaq Listing Rules also require foreign private issuers to have a compensation committee, a nominating/corporate governance committee composed entirely of independent directors, and an audit committee with a minimum of three members. We, as a foreign private issuer, are not subject to these requirements. Nasdaq Listing Rules may require shareholder approval for certain corporate matters, such as requiring that shareholders be given the opportunity to vote on all equity compensation plans and material revisions to those plans, certain Common Share issuances. We intend to comply with the requirements of Nasdaq Listing Rules in determining whether shareholder approval is required on such matters and to appoint a nominating and corporate governance committee. We may, however, consider following home country practice in lieu of the requirements under Nasdaq Listing Rules with respect to certain corporate governance standards which may afford less protection to investors.

***Our corporate governance practices are in compliance with, and are not prohibited by, the laws of the Republic of the Marshall Islands, and as such we are entitled to exemption from certain Nasdaq corporate governance standards. As a result, you may not have the same protections afforded to shareholders of companies that are subject to all of the Nasdaq corporate governance requirements.***

Our corporate governance practices are in compliance with, and are not prohibited by, the laws of the Republic of the Marshall Islands. Therefore, we are exempt from many of Nasdaq's corporate governance practices other than the requirements regarding the disclosure of a going concern audit option, submission of a listing agreement, notification of material non-compliance with Nasdaq corporate governance practices, and the establishment and composition of an audit committee and a formal written audit committee charter. To the extent we rely on these or other exemptions you may not have the same protections afforded to shareholders of companies that are subject to all of the Nasdaq corporate governance requirements.

**<u>Country and Currency Risks</u>**

***Substantially all of our assets are located in Brazil and substantially all of our revenue are derived from our operations in such country. Accordingly, our results of operations will be subject, to a significant extent, to the economic, political and legal policies, developments and conditions in Brazil.***

The economic, political and social conditions, as well as government policies, of Brazil could affect our business. Economic growth could be uneven, both geographically and among various sectors of the economy and such growth may not be sustained in the future. If in the future Brazil's economy experiences a downturn or grows at a slower rate than expected, there may be less demand for spending in certain industries. A decrease in demand for spending in certain industries could materially and adversely affect our ability to become profitable.

***Our ability to execute our business plan depends primarily on the continuation of a favorable mining environment in Brazil and our ability to freely sell our minerals.***

Mining operations in Brazil are heavily regulated. Concurrently, the Brazilian government has taken an active role in supporting the development of its domestic rare earth mining and processing industry, including, without limitation, by allocating financial resources to finance important mineral projects, including rare earths. Such government support is of material importance to the Company and the emerging Brazilian rare earths industry due to, among other factors, the presence of established foreign industry leaders and nations, such as China, which aggressively support their rare earths industry. Any significant change in mining legislation, government support of our industry, or other changes in Brazil's current mining environment may slow down or alter our business prospects. Further, countries in which we may wish to sell our mined minerals may impose special taxes, tariffs, or otherwise place limits and controls on consumption of our mined minerals, including tariffs or trade restrictions imposed by the new U.S. presidential administration.

***The perception of Brazil by the international community may affect us.***

Brazil's political environment and its environmental policies, in particular the preservation of the Amazon rain forest, are continuously scrutinized by the global media. If Brazil's political environment, regulations or policies are perceived to be, inadequate, unfavorable or hostile by foreign customers or investors, we may lose the interest of investor groups or potential buyers of our minerals, which will have a negative impact on us.

***Exposure to foreign exchange fluctuations and capital controls may adversely affect our costs, earnings and the value of some of our assets.***

Our reporting currency is the U.S. dollar; however, we conduct our business in Brazil utilizing the Brazilian real. A large portion of our operating expenses are incurred in Brazilian real. An appreciation of the Brazilian real against the U.S. dollar would increase our costs in U.S. dollar terms. Our consolidated financials are directly impacted by movements in the Brazilian real to U.S. dollar exchange rate.

While not expected, Brazil may choose to adopt measures to restrict the entry of U.S. dollars or the repatriation of capital across borders. These measures would have a number of negative effects on us, reducing the immediately available capital that we could otherwise deploy for investment opportunities or the payment of expenses, and the ability to repatriate any profits.

**<u>Common Stock Risks</u>**

***Our common stock price may be volatile.***

The market price of our common stock has been and is likely to continue to be volatile and could fluctuate in price in response to various factors, many of which are beyond our control, including the following:

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to grow revenues;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to achieve profitability;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to raise capital when needed;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● our ability to execute our business plan;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● legislative, regulatory, and competitive developments; and

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;● economic and external factors.

In addition, the securities markets have from time-to-time experienced significant price and volume fluctuations that are unrelated to the operating performance of any company. These market fluctuations may also materially and adversely affect the market price of our common stock regardless of our actual operations and the results from those operations.

***There is no assurance that an active, liquid and orderly trading market will develop for our common stock or what the market price of our common stock will be and, as a result, it may be difficult for you to sell your shares of our common stock.***

Since we became a publicly traded company in July 2016, there has been a limited public market for shares of our common stock on the OTCQB. We currently do not yet meet the initial listing standards of the Nasdaq Capital Market, and, although we have applied to list our common stock on the Nasdaq Capital Market concurrently upon completion of this offering, no assurances can be given that we will be successful. Until our common stock is listed on that market or a broader exchange, we anticipate that it will remain quoted on the OTCQB. In that venue, investors may find it difficult to obtain accurate quotations as to the market value of our common stock. In addition, if we fail to meet the criteria set forth in SEC regulations, various requirements would be imposed by law on broker-dealers who sell our securities to persons other than established customers and accredited investors. Consequently, such regulations may deter broker-dealers from recommending or selling our common stock, which may further affect liquidity. This could also make it more difficult to raise additional capital.

We cannot predict the extent to which investor interest in our Company will lead to the development of a more active trading market while our stock is quoted on the OTCQB, whether we will meet the initial listing standards of the Nasdaq Capital Market, or how liquid that market might become. If an active trading market does not develop, you may have difficulty selling any of the shares of our common stock that you buy.

***Our common stock is currently defined as a "penny stock" and the rules imposed on the sale of the shares may affect your ability to resell any shares you may purchase, if at all.***

Our common stock currently trades below $5.00 per share and is therefore defined as a "penny stock" under the Securities Exchange Act of 1934, as amended (the "Exchange Act"). The Exchange Act and penny stock rules generally impose additional sales practice and disclosure requirements on broker dealers who sell our securities. For transactions covered by the penny stock rules, a broker-dealer must make a suitability determination for each purchaser and receive the purchaser's written agreement prior to the sale. In addition, the broker-dealer must make certain mandated disclosures in penny stock transactions, including the actual sale or purchase price and actual bid and offer quotations, the compensation to be received by the broker-dealer and certain associated persons, and deliver certain disclosures required by the SEC. Consequently, the penny stock rules may affect the ability of broker-dealers to make a market in or trade our common stock and may consequently affect a stockholder's ability to resell any of our shares in the public markets.

***We do not intend to pay regular future dividends on our common stock and thus stockholders must look for appreciation of our common stock to realize a gain on their investments.***

We have never paid a dividend, and we do not have any plans to pay dividends in the foreseeable future. Our future dividend policy is within the discretion of our Board of Directors and will depend upon various factors, including future earnings, if any, our capital requirements and general financial condition, and other factors. Accordingly, stockholders must look solely to appreciation of our common stock to realize a gain on their investment. This appreciation may not occur or may occur only over a longer timeframe.

***We may need additional capital and seek to raise additional funds, finance acquisitions, or develop strategic relationships. We may be unable to obtain such capital in a timely manner or on acceptable terms, or at all. Furthermore, our future capital needs, including to finance acquisitions and develop strategic partnerships, may require us to sell additional equity or debt securities that may dilute our stockholders or introduce covenants that may restrict our operations or our ability to pay dividends.***

We may largely finance our operations by issuing equity securities, which may materially reduce the percentage ownership of our existing stockholders. Furthermore, any newly issued securities could have rights, preferences, and privileges senior to those of our existing common stock. Moreover, any issuances by us of equity securities may be at or below the prevailing market price of our stock and in any event may have a dilutive impact on the ownership interest of existing common stockholders, which could cause the market price of our common stock to decline. The holders of any debt securities or instruments that we may issue could have rights superior to the rights of our common stockholders.

To grow our business and remain competitive, we may also require additional capital from time to time through the issuance of debt or the issuance or sale of other securities or instruments senior to our common stock for our daily operation. Our ability to obtain additional capital is subject to a variety of uncertainties, including:

● our market position and competitiveness in our industry;

● our ability to prove reserves in each of our properties and, ultimately, commence commercial extraction on each of our properties;

● our future profitability, overall financial condition, results of operations and cash flows; and

● economic, political and other conditions in the U.S., Brazil and other international jurisdictions.

We may be unable to obtain additional capital in a timely manner or on acceptable terms or at all. In addition, our future capital needs and other business reasons could require us to sell additional equity or debt securities or obtain a credit facility. The sale of additional equity or equity-linked securities could dilute our stockholders. The incurrence of indebtedness would result in increased debt service obligations and could result in operating and financing covenants that would restrict our operations or our ability to pay dividends to our stockholders.

***Our Series A Preferred has the effect of concentrating voting control over us in Marc Fogassa, our Chief Executive Officer and Chairman.***

One share of our Series A Preferred is issued, outstanding and held since July 2016 by Marc Fogassa, our Founder, Chief Executive Officer and Chairman. The Certificate of Designations, Preferences and Rights of our Series A Preferred provides that for so long as Series A Preferred is issued and outstanding, the holders of Series A Preferred shall vote together as a single class with the holders of our common stock, with the holders of Series A Preferred being entitled to 51% of the total votes on all matters regardless of the actual number of shares of Series A Preferred then outstanding, and the holders of common stock and any other class or series of capital stock entitled to vote with the common stock being entitled to their proportional share of the remaining 49% of the total votes based on their respective voting power. As a result, you may have limited ability to impact our operations and activities.

***Marc Fogassa, our Founder, Chief Executive Officer and member of our Board of Directors, owns greater than 50% of our voting securities, which would cause us to be deemed a "controlled company" under the rules of Nasdaq.***

As a result of his ownership of and the one issued and outstanding share of our Series A Preferred, as well as ownership of our common stock and his ownership of voting securities of Atlas Lithium, Mr. Fogassa, our Founder, Chief Executive Officer and Chairman, currently controls approximately 83.3% of the voting power of our securities.

**<u>Risks Related to World Events</u>**

***Tariffs and other changes in international trade policy could adversely affect our business, financial condition and results of operations.***

Materials and products imported into the EU, the United States and other countries are subject to import duties. In addition, we cannot predict whether future Brazilian, U.S. or international laws, regulations or specific or broad trade remedy actions or international agreements may impose additional duties or other restrictions on exports of minerals from Brazil. Any such changes in legislation and government policy may have a material adverse effect on our business. For example, in recent periods, the U.S. government has announced and, in particular following the U.S. presidential election in November 2024, may continue to announce, various import tariffs on goods imported from certain trade partners, such as the EU and China, which have resulted, and may continue to result, in reciprocal tariffs on goods exported from the United States to such trade partners. An escalating global trade war, including between the United States and China, could harm our business and growth prospects. Trade barriers and other governmental action related to tariffs or international trade agreements around the world have the potential to decrease demand for our minerals and adversely impact the markets in which we operate.

***A resurgence of the COVID-19 pandemic, or the emergence of a new pandemic, may adversely affect our business.***

A resurgence of the COVID-19 pandemic, or the emergence of a new pandemic, may adversely affect our business. In the recent past, the spread of COVID-19 caused public health officials in both Brazil and the U.S. to recommend precautions to mitigate the spread of the virus, especially as to international travel. In addition, certain states and municipalities in both countries enacted quarantine and "shelter-in-place" regulations and at times required non-essential businesses to close. There is no certainty that a resurgence of COVID-19, or a new pandemic, will not occur with restrictions imposed again in response. It is unclear how such restrictions, if put in place again, would contribute to a general slowdown in the global economy and would affect our business.

***An escalation of the current war in Ukraine and the recent conflict in the Middle East, generalized conflict in Europe or the emergence of conflict elsewhere may adversely affect our business.***

Global markets have experienced, and may continue to experience, volatility and disruption following the escalation of geopolitical tensions, including the ongoing war in Ukraine, recent conflicts in the Middle East, rising tensions between China and Taiwan, the relationship between China and the United States, and other sources of geopolitical uncertainty and instability. The length and impact of these ongoing military and economic conflicts is highly unpredictable. Such geopolitical events, terrorist or other attacks, wars (or threatened wars) or international hostilities may lead to armed conflict or acts of terrorism in other parts of the world, which in turn may contribute to further economic instability in the global financial markets and international commerce. While much uncertainty remains regarding the global impacts of the war in Ukraine and the recent conflict in the Middle East, it is possible that such tensions could adversely affect our business, financial condition, results of operation and cash flows. Furthermore, it is possible that third parties, such as our customers and suppliers, may be impacted by these conflicts, which could adversely affect our operations. These uncertainties could also adversely affect our ability to obtain additional financing on terms acceptable to us or at all.

**<u>Risks Relating to the Marshall Islands</u>**

***We are incorporated in the Marshall Islands, which does not have a well-developed body of case law or bankruptcy law and, as a result, shareholders may have fewer rights and protections under Marshall Islands law than under a typical jurisdiction in the United States.***

Our corporate affairs are governed by our articles of incorporation and bylaws and by the Marshall Islands Business Corporations Act (the "BCA"). The provisions of the BCA resemble provisions of the corporation laws of a number of states in the United States of America. However, there have been few judicial cases in the Marshall Islands interpreting the BCA. The rights and fiduciary responsibilities of directors under the law of the Marshall Islands are not as clearly established as the rights and fiduciary responsibilities of directors under statutes or judicial precedent in existence in certain U.S. jurisdictions. Shareholder rights may differ as well. While the BCA does specifically incorporate the non-statutory law, or judicial case law, of the State of Delaware and other states with substantially similar legislative provisions, our public shareholders may have more difficulty in protecting their interests in the face of actions by management, directors or controlling shareholders than would shareholders of a corporation incorporated in a U.S. jurisdiction. Further, the Marshall Islands does not have a well-developed body of bankruptcy law. As such, in the case of our bankruptcy, there may be a delay in bankruptcy proceedings and the ability of shareholders and creditors to receive recovery after a bankruptcy proceeding.

***Service of process and enforcement of judgments may be more difficult.***

We are incorporated under the laws of the Marshall Islands. Substantially all of our assets and a majority of our directors and officers are located in Brazil. As a result, investors could experience more difficulty effecting service of process upon us and our directors and officers, or enforcing judgments obtained against us or our directors and officers, including with respect to matters arising under United States federal securities laws or applicable state securities laws. Even if an investor obtains a judgment against us or our directors or officers in a United States court or other court outside of the Marshall Islands, an investor may not be able to enforce such judgment against us or them in the Marshall Islands.

**Risks Related to This Offering and the Reverse Stock Split**

**Our stock price may be volatile, and you could lose all or part of your investment.**

The trading price of our common stock following this offering is likely to be volatile, may fluctuate substantially, and may be higher or lower than the underwritten offering price. Our common stock may also be subject to rapid and substantial price volatility. There have been recent instances of extreme stock price run-ups followed by rapid price declines following initial public offerings, with stock price volatility seemingly unrelated to company performance, particularly among companies with relatively smaller public floats, and we expect that such instances may continue and/or increase in the future. Contributing to this risk of volatility are a number of factors. First, our shares of common stock are likely to be more sporadically and thinly traded than that of larger, more established companies. As a consequence of this lack of liquidity, the trade of relatively small quantities of shares by our stockholders may disproportionately influence the price of those shares in either direction. The price of our common stock could, for example, decline precipitously in the event that a large number of our shares are sold on the market without commensurate demand as compared to a seasoned issuer that could better absorb those sales without adverse impact on its stock price. Second, we are a speculative investment due to our limited operating history in our current business strategy, not being profitable, and being an exploration stage company with no guarantee that our properties will result in the commercial extraction of mineral deposits. As a consequence of this enhanced risk, more risk-adverse investors may, under the fear of losing all or most of their investment in the event of negative news or lack of progress, be more inclined to sell their shares on the market more quickly and at greater discounts than would be the case with the stock of a larger, more established company that has a relatively large public float.

In addition, the market price of our common stock is also subject to significant fluctuations in response to, among other factors:

● changes to our industry, including demand and regulations;

● failure to achieve commercial extraction of mineral deposits from any of our properties;

● absence of any reserves contained within our properties, and loss of any funds spent on exploration and evaluation;

● we may not be able to compete successfully against current and future competitors;

● competitive pricing pressures;

● our ability to obtain working capital financing as required;

● additions or departures of key personnel;

● sales of our common stock;

● our ability to execute our business plan;

● operating results that fall below expectations;

● any major change in our management;

● changes in accounting standards, procedures, guidelines, interpretations or principals; and

● economic, geo-political and other external factors, particularly within the country of Brazil, including any potential change in Brazil's policy of economically supporting the development of domestic rare earth mining and processing industries.

Many of these factors are beyond our control and may decrease the market price of our common stock. Such volatility, including any stock run-ups, may be unrelated or disproportionate to our actual or expected operating performance and financial condition or prospects, making it difficult for prospective investors to assess the rapidly changing value of our common stock.

Furthermore, the stock market in general, and the market for technology companies in particular, have experienced extreme price and volume fluctuations that have often been unrelated or disproportionate to the operating performance of those companies. Broad market and industry factors, as well as general economic, political and market conditions such as recessions or interest rate changes, may seriously affect the market price of our common stock, regardless of our actual operating performance. These fluctuations may be even more pronounced in the trading market for our stock shortly following this offering. If the market price of our common stock after this offering does not exceed the per share underwritten offering price, you may not realize any return on your investment in us and may lose some or all of your investment.

Further, in the past, following periods of volatility in the overall market and the market prices of particular companies' securities, securities class action litigations have often been instituted against these companies. Litigation of this type, if instituted against us, could result in substantial costs and a diversion of our management's attention and resources. Any adverse determination in any such litigation or any amounts paid to settle any such actual or threatened litigation could require that we make significant payments.

**You will experience dilution as a result of future equity offerings.**

We may in the future offer additional shares of our common stock or other securities convertible into or exchangeable for our common stock. Although no assurances can be given that we will consummate a future financing, in the event we do, or in the event we sell shares of common stock or other securities convertible into shares of our common stock in the future, additional and potentially substantial dilution will occur. In addition, investors purchasing shares or other securities in the future could have rights superior to investors in this offering.

***You will experience dilution in the event we exercise the Option (as defined below) with Atlas Lithium, and Atlas Lithium elects to receive the exercise price in shares of our common stock.***

Under the terms of the Option Agreement (as defined below), we may elect to exercise the Option to acquire additional mineral rights from Atlas Lithium. Atlas Lithium may in its discretion elect to receive consideration to be paid by us upon exercise of the Option in the form of cash or our common stock. In the event Atlas Lithium elects to receive the exercise price in shares of our common stock, the number of shares of our common stock issued and outstanding will increase by 12,767,315 shares, resulting in additional material dilution to our stockholders.

**We have not paid cash dividends in the past and do not expect to pay dividends in the future. Any return on investment will likely be limited to the value of our common stock. Since we do not anticipate paying any cash dividends on our capital stock in the foreseeable future, stock price appreciation, if any, will be your sole source of gain.**

We have never paid cash dividends on our common stock and do not anticipate doing so in the foreseeable future. The payment of dividends on our common stock will depend on earnings, financial condition and other business and economic factors affecting us at such time as our Board of Directors may consider relevant. If we do not pay dividends, our common stock may be less valuable because a return on your investment will only occur if our stock price appreciates.

Currently, we intend to retain all of our future earnings, if any, to finance the growth and development of our business. In addition, the terms of any future debt agreements may preclude us from paying dividends. As a result, appreciation, if any, in the market price of our common stock will be your sole source of gain for the foreseeable future

**Our controlling shareholder, Mr. Fogassa, has substantial influence over our Company and his interests may not be aligned with the interests of our other stockholders, which may discourage, delay or prevent a change in control of our Company, which could deprive our stockholders of an opportunity to receive a premium for their securities.**

As of the date of this prospectus, our controlling shareholder, Mr. Fogassa, directly and indirectly through his control of Atlas Lithium, controls approximately 83.3% of the voting power in us. As a result, Mr. Fogassa has substantial influence over our business, including decisions regarding mergers, consolidations and the sale of all or substantially all of our assets, election of directors and other significant corporate actions. This concentration of ownership may discourage, delay or prevent a change in our control, which could deprive our stockholders of an opportunity to receive a premium for their shares as part of any contemplated sale of our Company and may reduce the price of our common stock.

**Investors in this offering will experience immediate and substantial dilution in net tangible book value.**

The underwritten offering price per share of common stock will be substantially higher than the net tangible book value per share of our outstanding shares of common stock. As a result, investors in this offering will incur immediate dilution of $[●] per share, based on the assumed offering price of $[●] per share of common stock, which is the midpoint of the estimated initial offering price range set forth on the cover page of this prospectus, Investors in this offering will pay a price per share that substantially exceeds the book value of our assets after subtracting our liabilities. See "Dilution" for a more complete description of how the value of your investment will be diluted upon the completion of this offering.

**Our management will have broad discretion over the use of proceeds from this offering and may not use the proceeds effectively.**

Our management will have broad discretion over the use of proceeds from this offering. We intend to use the net proceeds from this offering for exploration, including drilling and assessment of deposits and reserves, if any, as well as capital expenditures, and working capital. We may also use our net proceeds to acquire and invest in complementary technologies or businesses; *however*, we currently have no agreements or commitments to complete any such transaction. Our management will have considerable discretion in the application of the net proceeds, and you will not have the opportunity, as part of your investment decision, to assess whether the proceeds are being used appropriately. The net proceeds may be used for corporate purposes that do not improve our operating results or enhance the value of our securities.

Our expected use of net proceeds from this offering represents our current intentions based upon our present plans and business condition. As of the date of this prospectus, we cannot predict with certainty all of the particular uses for the net proceeds to be received upon the completion of this offering. The amounts and timing of our actual use of the net proceeds will vary depending on numerous factors, including amount of cash used in our operations, which can be highly uncertain, subject to substantial risks and can often change. Our management will have broad discretion in the application of the net proceeds, and investors will be relying on our judgment regarding the application of the net proceeds of this offering.

The failure by our management to apply these funds effectively could harm our business. Pending their use, we may invest the net proceeds from this offering in short-term, investment-grade, interest-bearing securities. These investments may not yield a favorable return to our stockholders. If we do not invest or apply the net proceeds from this offering in ways that enhance stockholder value, we may fail to achieve expected financial results, which could cause our stock price to decline.

**The Reverse Stock Split could cause our stock price to decline relative to its value before the split and decrease the liquidity of shares of our common stock.**

We intend to effect a Reverse Stock Split of our issued and outstanding common stock effective concurrently with our potential uplisting to the Nasdaq Capital Market in order to achieve a sufficient increase in our stock price to enable us to qualify for listing. There is no assurance that that the Reverse Stock Split will not cause an actual decline in the value of our outstanding common stock. The liquidity of the shares of our common stock may be affected adversely by the Reverse Stock Split given the reduced number of shares that will be outstanding following the Reverse Stock Split, especially if the market price of our common stock does not increase as a result of the Reverse Stock Split. In addition, the Reverse Stock Split may increase the number of stockholders who own odd lots (less than 100 shares) of our common stock, creating the potential for such stockholders to experience an increase in the cost of selling their shares and greater difficulty effecting such sales.

**Following the Reverse Stock Split, we cannot assure you that we will be able to continue to comply with listing standards of the Nasdaq Capital Market.**

We have applied to list our common stock on the Nasdaq Capital Market in connection with this offering. Assuming that our application is approved, following the Reverse Stock Split, we expect that our common stock will be eligible to be quoted on the Nasdaq Capital Market. For our common stock to be so listed, we must meet the current listing standards of the Nasdaq Capital Market, including the minimum bid price requirement. There can be no assurance that the market price of our common stock following the Reverse Stock Split will remain at the level required for continuing compliance with the minimum bid price requirement of the Nasdaq Capital Market. It is not uncommon for the market price of a company's common stock to decline in the period following a Reverse Stock Split. If the market price of our common stock declines following the effectuation of the Reverse Stock Split, the percentage decline may be greater than would occur in the absence of a reverse stock split. In addition, other factors unrelated to the number of shares of our common stock outstanding, such as negative financial or operational results, could adversely affect the market price of our common stock and jeopardize our ability to meet or maintain the minimum bid price requirement of the Nasdaq Capital Market. If we fail to comply with the minimum bid price requirement, our securities could be delisted.

In addition to the minimum bid price requirement for continuing compliance with the Nasdaq Capital Market continued listing standards, we cannot assure you that we will be able to comply with the other standards that we are required to meet in order to maintain a listing of our common stock on the Nasdaq Capital Market. For example, we may lose an independent director on our Audit Committee, who cannot readily be replaced. Our failure to meet these requirements may result in our common stock sold in this offering being delisted from the Nasdaq Capital Market, irrespective of our compliance with the minimum bid price requirement.

If our common stock were to be delisted from the Nasdaq Capital Market, our common stock could revert to being quoted on the OTCQB or another over-the-counter platform following any delisting from Nasdaq Capital Market. Any such delisting of our common stock could have an adverse effect on the market price of, and the efficiency of the trading market for, our common stock, not only in terms of the number of shares that can be bought and sold at a given price, but also through delays in the timing of transactions and less coverage of us by securities analysts, if any. Also, as we are seeking additional equity capital, it could have an adverse effect on our ability to raise capital in the public or private equity markets.

**<u>Risks Related to Being a Public Company</u>**

***Our management may identify material weaknesses in the future that could adversely affect investor confidence, impair the value of our securities, and increase our cost of raising capital.***

There can be no assurance that our management will not identify any material weaknesses in our internal control over financial reporting in the future, and if such material weaknesses are identified, as to how quickly or effectively we can remediate them. Any failure to remedy additional weaknesses or deficiencies in our internal control over financial reporting that may be discovered in the future or to implement new or improved controls, or difficulties encountered in the implementation of such controls, could harm our operating results, cause us to fail to meet our reporting obligations or result in material misstatements in our financial statements. Any such failure could, in turn, affect the future ability of our management to certify that our internal control over financial reporting is effective. Ineffective internal control over financial reporting could also subject us to the scrutiny of the SEC and other regulatory bodies which could cause investors to lose confidence in our reported financial information and subject us to civil or criminal penalties or shareholder litigation, which could have an adverse effect on the trading price of our securities. In addition, if we identify additional deficiencies in our internal control over financial reporting, the disclosure of that fact, even if quickly remedied, could reduce the market's confidence in our financial statements and harm our share price. Furthermore, additional deficiencies could result in future non-compliance with Section 404 of the Sarbanes-Oxley Act of 2002 ("Sarbanes-Oxley"). Such non-compliance could subject us to a variety of administrative sanctions, including review by the SEC or other regulatory authorities.

***We incur significant costs as a result of operating as a public company, and our management will be required to devote substantial time to new compliance initiatives and corporate governance practices.***

We are subject to the reporting requirements of the Exchange Act, the Sarbanes-Oxley Act, the Dodd-Frank Act and other applicable securities laws and regulations. Contingent upon the outcome of our application to be listed on the Nasdaq Capital Market, we also expect to be subject to the Nasdaq Listing Rules. The expenses incurred by public companies generally for reporting and corporate governance purposes have been increasing. We expect these rules and regulations to continue to increase our legal and financial compliance costs and to make some activities more difficult, time-consuming and costly. Being a public company and being subject to such rules and regulations also makes it more expensive for us to obtain director and officer liability insurance, and we may be required to accept reduced coverage or incur substantially higher costs to obtain coverage. These laws and regulations could also make it more difficult for us to attract and retain qualified persons to serve on our Board, on our board committees or as our executive officers. Furthermore, if we are unable to satisfy our obligations as a public company, we could be subject to delisting of our ordinary shares, fines, sanctions and other regulatory action and potentially civil litigation. These factors may therefore strain our resources, divert management's attention and affect our ability to attract and retain qualified board members.

**USE OF PROCEEDS**

We estimate that the net proceeds from the sale of common stock in this offering will be approximately $[●], or approximately $[●] if the underwriters exercise in full their option to purchase additional shares of common stock, based on an assumed underwritten offering price of $[●] per share, which is the midpoint of the estimated initial offering price range set forth on the cover page of this prospectus, after deducting the estimated underwriting discounts and commissions and estimated offering expenses payable by us. Each $1.00 increase (decrease) in the assumed underwritten offering price per share of common stock would increase (decrease) the net proceeds to us from this offering by approximately $[●], or approximately $[●] if the underwriters exercise their over-allotment option in full, assuming the number of shares offered by us, as set forth on the cover page of this prospectus, remain the same and after deducting estimated underwriting discounts and commissions and estimated offering expenses payable by us.

We expect the net proceeds of this offering to be used in the following order of priorities:

&nbsp;&nbsp;&nbsp;&nbsp;(1) An
 expected allocation of up to $2,000,000 to pay the costs of drilling campaigns and other technical studies needed to produce a technical
 report summary in accordance with Regulation S-K 1300 with respect to our rare earths project in Minas Gerais state (the "Alto
 Paranaiba Project");

(2) An
 expected allocation of up to $2,000,000 to pay the costs of drilling campaigns and other technical studies needed to produce a
 technical report summary in accordance with Regulation S-K 1300 with respect to our natural graphite project in Minas Gerais state (the "Malacacheta Project");

(3) An
 expected allocation of up to $8,000,000 to pay the exercise price of the Option to Atlas Lithium in the event Atlas Lithium elects
 to receive all or a portion of the exercise price of the Option in cash rather than shares of common stock; and

(4) Any
 surplus funds, or any funds available due to the exercise price of the Option to Atlas Lithium not being paid entirely in cash, if
 any, shall be used for general working capital purposes and as cash reserves.

The expected use of net proceeds of this offering as listed above represents our current intentions based upon our present plan and business conditions. The actual amounts and timing of our actual use of net proceeds will vary depending on numerous factors, and management shall have broad discretion to modify the above list of priorities as new information is obtained. We have presumed that we will receive aggregate gross proceeds of $[●] from this offering (excluding any proceeds received from exercise of the over-allotment option by the underwriters, if any) and will incur approximately $[●] in offering costs, commissions and fees.

The use of the proceeds listed above represents management's estimates based upon current business and economic conditions. Although we do not contemplate changes in the proposed use of proceeds, to the extent we find that adjustment is required for other uses by reason of existing business conditions, the use of proceeds may be adjusted. The actual use of the proceeds of this offering could differ materially from those set forth above as a result of several factors including those set forth under "Risk Factors" and elsewhere in this prospectus.

Pending the use of the net proceeds of this offering, we intend to invest the net proceeds in short-term investment-grade, interest-bearing securities.

**DETERMINATION OF OFFERING PRICE**

Prior to this offering, there was a limited public market for our common stock. We and the underwriters will determine at what price we may sell the common stock offered by this prospectus. As of [●], 2025, the closing bid price for our common stock as reported on the OTCQB was $[●] per share. The principal factors to be considered when determining the underwritten offering price include:

● our negotiation with the investors;

● the information set forth in this prospectus;

● our history and prospects and the history and prospects for the industry in which we compete;

● our past and present financial performance;

● our prospects for future earnings and the present state of our development;

● the general condition of the securities market at the time of this offering;

● the recent market prices of, and demand for, publicly traded common stock of generally comparable companies; and

● other factors deemed relevant by the underwriters and us.

**MARKET FOR OUR COMMON STOCK AND RELATED SHAREHOLDER MATTERS**

**Market and Other Information**

Our common stock is quoted on the OTCQB under the symbol "JUPGF" and quotations for our common stock are available on otcmarkets.com. We have applied to list our common stock under the symbol "ATCX" on the Nasdaq Capital Market. No assurance can be given that our application will be approved, and we will not consummate this offering unless our common stock is approved for listing on the Nasdaq Capital Market.

The following tables set forth, for each of the quarterly periods indicated, the range of high and low sales prices, in U.S. dollars, for our common stock for the first fiscal quarter of 2025 each fiscal quarter of 2024 and 2023 and account for the Reverse Stock Split.

---

| | | |
|:---|:---|:---|
|  | Quarter Ended | Quarter Ended |
|  | March 31, 2025 | March 31, 2025 |
|  | High | Low |
| First (01/01 - 03/31) | $0.9889 | $0.65 |

---

---

| | | |
|:---|:---|:---|
|  | Year Ended | Year Ended |
|  | December 31, 2024 | December 31, 2024 |
|  | High | Low |
| First (01/01 - 03/31) | $0.90 | $0.61 |
| Second (04/01 - 06/30) | $1.02 | $0.55 |
| Third (07/01 - 09/30) | $1.10 | $0.45 |
| Fourth (10/01 - 12/31) | $0.76 | $0.49 |

---

---

| | | |
|:---|:---|:---|
|  | Year Ended | Year Ended |
|  | December 31, 2023 | December 31, 2023 |
|  | High | Low |
| First (01/01 - 03/31) | $1.49 | $0.63 |
| Second (04/01 - 06/30) | $3.75 | $0.80 |
| Third (07/01 - 09/30) | $1.03 | $0.81 |
| Fourth (10/01 - 12/31) | $0.98 | $0.59 |

---

**Dividend Policy**

We have never paid or declared any cash dividends on our common stock, and we do not anticipate paying any cash dividends on our common stock in the foreseeable future. We intend to retain all available funds and any future earnings to fund the development and expansion of our business. Any future determination to pay dividends will be at the discretion of our Board of Directors and will depend upon a number of factors, including our results of operations, financial condition, future prospects, contractual restrictions, restrictions imposed by applicable law and other factors our Board of Directors deems relevant.

**CAPITALIZATION**

The following table sets forth our cash and capitalization as of December 31, 2024 on:

● an actual basis;

● on a pro forma basis to reflect, as of the date of this prospectus, the Reverse Stock Split and additional pro forma adjustments needed, if any; and

● on a pro forma as adjusted basis to reflect the pro forma adjustments and the sale by us of an assumed [●] shares of common stock at an assumed underwritten offering price of $[●] per share which is the midpoint of the estimated initial offering price range set forth on the cover page of this prospectus, and assuming no exercise of the underwriters' over-allotment option, after deducting the underwriting discounts and commissions and estimated offering costs payable by us.

The following table does not reflect the issuance of up to 12,767,315 shares of common stock in the event the Option is exercised and Atlas Lithium elects to receive the exercise price in such shares of common stock rather than cash.

The pro forma as adjusted information in this table is unaudited and is illustrative only and our capitalization following the completion of this offering will be adjusted based on the actual underwritten offering price and other terms of this offering determined at pricing. You should read this table in conjunction with the information contained in "Use of Proceeds," "Summary Financial Data," and "Management's Discussion and Analysis of Financial Condition and Results of Operation," as well as the financial statements and the notes included elsewhere in this prospectus.

---

| | | | |
|:---|:---|:---|:---|
|  | **As of December 31, 2024** | **As of December 31, 2024** | **As of December 31, 2024** |
|  | **Actual** | **Pro Forma** | **Pro Forma, as Adjusted (1)** |
| Cash and cash equivalents | $396216 |  |  |
| Series A Convertible Preferred Stock, $0.001 par value. one share authorized; one share issued and outstanding; pro forma and pro forma as adjusted. | 1 | 1 |  |
| Common stock, $0.001 par value. 190,000,000 shares authorized; 33,336,729 shares issued and outstanding, actual; 190,000,000 shares authorized, [●] shares issued and outstanding, pro forma; 190,000,000 shares authorized, [●] shares issued and outstanding, pro forma as adjusted. | 33337 |  |  |
| Additional paid-in capital | 10901133 |  |  |
| Accumulated other comprehensive loss | (669350) |  |  |
| Accumulated deficit | (9145542) |  |  |
| &nbsp;&nbsp;&nbsp;Total stockholders' equity | 1119578 |  |  |
| Non-controlling interest | - |  |  |
| &nbsp;&nbsp;&nbsp;Total stockholders' equity | 1119578 |  |  |
| &nbsp;&nbsp;&nbsp;Total liabilities and stockholders' equity | $2380910 |  |  |

---

(1) Each
 $1.00 increase (decrease) in the assumed underwritten offering price of $[●] per share of common stock, which is
 the midpoint of the estimated initial offering price range set forth on the cover page of this prospectus, would increase (decrease)
 each of cash, total stockholders' (deficit) equity and total capitalization by approximately $[●], assuming that the
 number of shares of common stock offered by us, as set forth on the cover page of this prospectus, remains the same, and after deducting
 underwriting discounts and commissions and estimated offering expenses payable by us. Similarly, each 10% increase (decrease) of
 shares of common stock offered by us would increase (decrease) each of cash, total stockholders' (deficit) equity and total
 capitalization by approximately $[●], assuming that the assumed underwritten offering
 price remains the same, and after deducting underwriting discounts and commissions and estimated offering expenses payable by us. The pro forma as adjusted information discussed above is illustrative only and will adjust based on the actual underwritten
 offering price and other terms of this offering determined at pricing.

The number of shares of our common stock outstanding after the completion of this offering is based on [●] shares of our common stock outstanding as of December 31, 2024, and reflecting the Reverse Stock Split, and excludes the following:

● 236,667 shares of common stock issuable upon the exercise of outstanding options with a weighted average exercise price of $0.93 per share and weighted average time to expiration of 1.85 years;

● 800,000 shares of common stock reserved for the future issuance of awards under our 2016 Stock Incentive Plan;

● 12,767,315 shares of common stock that could be issued as consideration pursuant to the Option Agreement; and

● One share of common stock issuable upon the conversion of our outstanding Series A Preferred.

**DILUTION**

If you invest in our common stock in this offering, your ownership interest will be diluted to the extent of the difference between the assumed underwritten offering price per share of common stock in this offering and the as adjusted net tangible book value per share immediately after this offering. We calculate net tangible book value per share by dividing our net tangible book value, which is tangible assets less total liabilities less debt discounts, by the number of our outstanding common stock as of December 31, 2024. Our historical net tangible book value as of December 31, 2024, was $[●] or $[●] per share based upon shares of common stock outstanding on such date.

Our pro forma net tangible book value as of the date of this prospectus is $[●] or $[●] per share of common stock after giving effect to the Reverse Stock Split. The following table does not reflect the issuance of shares of common stock in the event the Option is exercised and Atlas Lithium elects to receive the exercise price in shares of common stock rather than cash.

After giving effect to our receipt of approximately $[●] of estimated net proceeds, after deducting underwriting discounts and commissions and estimated offering expenses payable by us, from our sale of common stock in this offering at an assumed underwritten offering price of $[●] per share of common stock, which is the midpoint of the estimated initial offering price range set forth on the cover page of this prospectus, our pro forma as adjusted net tangible book value as of December 31, 2024, would have been approximately $[●], or $[●] per share. This amount represents an immediate increase in net pro forma tangible book value of $[●] per share of our common stock to existing stockholders and an immediate dilution in the pro forma net tangible book value of $[●] per share of our common stock to new investors purchasing shares of common stock in this offering.

The following table illustrates this dilution on a per share basis to new investors:

---

| | | |
|:---|:---|:---|
| Assumed underwritten offering price |  | $[●] |
| Historical net tangible book value (deficit) per share as of December 31, 2024 | $0.03 |  |
| Pro forma increase in net tangible book value per share attributable to the adjustments described above | $[●] |  |
| Pro forma net tangible book value as of December 31, 2024 | $[●] |  |
| Increase in pro forma net tangible book value per share attributable to investors participating in this offering | $[●] |  |
| Pro forma as adjusted net tangible book per share value immediately after this offering |  | $[●] |
| Dilution per share to net investors in this offering |  | $[●] |

---

The dilution information discussed above is illustrative only and will change based on the actual underwritten offering price and other terms of this offering to be determined at pricing. Each $1.00 increase (decrease) in the assumed underwritten offering price of $[●] per share, which is the midpoint of the estimated public offering price range set forth on the cover page of this prospectus, would increase (decrease) the pro forma net tangible book value per share by approximately $[●], or by approximately $[●] per share, assuming the number of shares of common stock offered by us, as set forth on the cover page of this prospectus, remains the same, after deducting underwriting discounts and commissions and estimated offering expenses payable by us. Similarly, each 10% increase (decrease) in the number of shares offered by us would increase (decrease) the pro forma net tangible book value per share by approximately $[●], or approximately $[●] per share, assuming the assumed underwritten offering price remains the same, after deducting underwriting discounts and commissions and estimated offering expenses payable by us.

If the underwriters exercise their option to purchase additional shares of common stock in full in this offering, the net tangible book value after this offering would be approximately $[●], or approximately $[●] per share, the increase in net tangible book value to existing stockholders would be $[●] per share, and the dilution per share to new investors would be $[●] per share, in each case based on an assumed underwritten offering price of $[●] per share, which is the midpoint of the estimated public offering price range set forth on the cover page of this prospectus.

The number of shares of our common stock outstanding after the completion of this offering is based on [●] shares of our common stock outstanding as of December 31, 2024, and reflecting the Reverse Stock Split, and excludes the following:

● 236,667 shares of common stock issuable upon the exercise of outstanding options with a weighted average exercise price of $0.93 per share and weighted average time to expiration of 1.85 years;

● 800,000 shares of common stock reserved for the future issuance of awards under our 2016 Stock Incentive Plan; and

● one share of common stock issuable upon the conversion of our outstanding Series A Preferred.

**MANAGEMENT'S DISCUSSION AND ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS**

The following discussion of our financial condition and results of operations should be read in conjunction with our audited consolidated financial statements and the notes to those financial statements appearing elsewhere in this prospectus.

This prospectus contains forward-looking statements. Forward-looking statements for Atlas Critical Minerals reflect current expectations, as of the date of this prospectus, and involve certain risks and uncertainties. Actual results could differ materially from those anticipated in these forward-looking statements as a result of various factors. Factors that could cause future results to materially differ from the recent results or those projected in forward-looking statements include, among others: unprofitable efforts resulting not only from the failure to discover mineral deposits, but also from finding mineral deposits that, though present, are insufficient in quantity and quality to return a profit from production; market fluctuations; government regulations, including regulations relating to royalties, allowable production, importing and exporting of minerals, and environmental protection; competition; the loss of services of key personnel; unusual or infrequent weather phenomena, sabotage, government or other interference in the maintenance or provision of infrastructure as well as general economic conditions.

**Results of Operations**

Except as may be otherwise indicated, all dollar amounts are stated in U.S. dollars, our reporting currency. The following table sets out the exchange rates, based on the data from the website of Brazil's "Banco Central" (an equivalent to the U.S. Federal Reserve), for the conversion of the Brazilian real (R$) currency into the United States dollar (U.S.$), for the period from January 1, 2023, to December 31, 2023 and the period from January 1, 2024, to December 31, 2024. The average exchange rates are based on the average of the daily closing exchange rates during such periods:

---

| | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | **Average** | **Average** | **High** | **High** | **Low** | **Low** | **Close** | **Close** |
| Fiscal Year Ended 12/31/2024 | R$ | 5.3905 | R$ | 6.1991 | R$ | 4.8543 | R$ | 6.1923 |
| Fiscal Year Ended 12/31/2023 | R$ | 4.9953 | R$ | 5.4459 | R$ | 4.7202 | R$ | 4.8413 |
| Fiscal Year Ended 12/31/2022 | R$ | 5.2284 | R$ | 5.7042 | R$ | 4.7378 | R$ | 5.2177 |

---

The exchange rate on December 31, 2024, was R$6.1923 Brazilian real per one U.S. dollar. The exchange rate on December 31, 2023, was R$4.8413 Brazilian real per one U.S. dollar.

*<u>Year Ended December 31, 2024 compared to the Year ended December 31, 2023</u>*

Our quartzite operation is our sole property currently generating revenues. After a trial mining period in the second half of 2023, we commenced ongoing operations at our quartzite quarry in 2024. Our gross margin of $265,694 was generated from the sales of 551 m<sup>3</sup> of unprocessed blocks of quartzite and 905 m<sup>2</sup> of processed slabs produced by our quartzite operation. By comparison, there was no gross margin generation in the year ended December 31, 2023. Although we are currently generating revenues from the sale of blocks of quartzite and processed slabs, our production of quartzite blocks and slabs paused in April 2025 while we undergo modifications to our operations to address certain identified issues. The primary issue to be resolved is the adoption of an updated drainage plan for the quarry. We have retained an engineering firm to prepare an updated drainage plan for a cost of approximately $2,320, and expect to resume operations by year end 2025 . Implementing the drainage plan is expected to cost between $25,000 and $50,000.

Our operating expense is comprised primarily of stock-based compensation, general administrative expense, and other compensation related costs. Operating expense totaled $1,903,637 for the year ended December 31, 2024, compared to operating expense of $1,015,531 for the year ended December 31, 2023. The increase in operating expense of $888,106, or 87.45%, is primarily due to increased stock-based compensation to executives. During 2024, 1,593,508 equity instruments were issued to our executives (1,077,037 immediately vested and 516,471 vesting in 4 years) compared to 420,000 issued in 2023.

We incurred a net loss of $1,713,123 for the year ended December 31, 2024, an increase of 59.83% compared to $1,071,845 for the year ended December 31, 2023.

Net cash used in operating activities was $846,948 for the year ended December 31, 2024, compared to $862,696 used in operations during the year ended December 31, 2023, a reduction of $15,747. Main impacts can be attributable to the following:

&nbsp;&nbsp;&nbsp;&nbsp;● In
 2024, generated $265,694 from gross profit of our quartzite operation and paid $18,887 in income taxes arising from its sales revenues,
 compared to nil in 2023;

● Our
 quartzite operation produced $205,128 of inventories of blocks and slabs ready to be sold. Comparable to nil in 2023;

● Receivables
 from blocks and slabs sales amounted to $62,066 on December 31, 2024, compared to nil in 2023;

● Development
 of our quartzite operation and other activities increased general volume of our transactions. Compared to 2023, 2024 faced an increase
 of approximately $35,000 in payables net of expenses of the period;

Net cash used in investing activities was $153,718 for the year ended December 31, 2024, compared to nil for the year ended December 31, 2023. Cash used in 2024 is principally attributable to the acquisition of an excavator to be used in our quartzite operation, amounting to $133,424.

Net cash provided by financing activities was $1,312,416 for the year ended December 31, 2024, compared to $930,145 for the year ended December 31, 2023. The $382,271 (41.1%) increase derives from:

● In 2024, issuance and sales of 3,009,162 shares of our common stock generated a $1,595,750 inflow, compared to issuance and sales of 506,480 shares generating a $291,600 inflow in 2023;

● We received $638,545 of intercompany loans from its affiliate Mineração Apollo Ltda in 2023, compared to the repayment of $283,334 in intercompany loans in 2024.

*<u>Fiscal Year Ended December 31, 2023, Compared to Fiscal Years Ended December 31, 2022</u>*

We did not record any revenue during the year ended December 31, 2023, compared to revenue of $0 during the year ended December 31, 2022.

Our operating expense is comprised primarily of stock-based compensation, general administrative expense, and to a lesser extent professional fees and other compensation related costs. Operating expense totaled $1,015,531 for the year ended December 31, 2023, compared to operating expense of $657,375 for the year ended December 31, 2022. The increase in operating expense of 54% comparing 2023 to 2022 and 20% is principally attributed to increased general and administrative expense and compensation costs, both highly influenced by the increase in activities related to the Quartzite project, including the increase in the number of employees from 1 in 2022 to 7 in 2023.

We incurred a net loss of $1,071,845 for the year ended December 31, 2023, an increase of 63% compared to $657,375 for the year ended December 31, 2022.

Net cash used in operating activities was $862,696 for the year ended December 31, 2023, compared to $534,073 used in operations during the year ended December 31, 2022. Net cash used in investing activities was nil for the year ended December 31, 2023, compared to $10,525 for the year ended December 31, 2022. Net cash provided by financing activities was $930,145 for the year ended December 31, 2023, compared to $575,078 for the year ended December 31, 2022.

**Liquidity and Capital Resources**

As of December 31, 2024, we had total current assets of $663,422 and total current liabilities of $1,227,371 for a current ratio of 0.54 to 1.00 and negative working capital of $563,949. Current liabilities include an amount of $872,942 payable to Atlas Lithium, a related party. As of December 31, 2023 and 2022, we had total current assets of $96,432 and $25,438, respectively, and total current liabilities of $734,118 and $20,583, respectively, for a current ratio of 0.13 to 1.00 and negative working capital of $637,684 for the year ended December 31, 2023 and a current ratio of 1.23 to 1.0 and working capital of $4,855 for the year ended December 31, 2022. The variation of the working capital was primarily driven by the resources received from a loan provided by Mineração Apollo Ltda, a wholly owned subsidiary of Apollo Resources Corporation, an affiliate, in order to cover our expenditures with exploration of gold assets and execution of the trial mining activities.

During the year ended December 31, 2024, we funded operations primarily through the sale of equity securities ($1,595,750 in 2024), and cash generated by the quartzite operation (gross profit of $265,694 in 2024).

The consolidated financial statements have been prepared on a going concern basis. We have incurred losses since its inception resulting in an accumulated deficit of $9,145,542 as of December 31, 2024, and further losses are anticipated in the development of its business. We do not have sufficient cash to fund normal operations and meet debt obligations for the next 12 months without generating profits from our quartzite operation, deferring payment to certain current liabilities and/or raising additional funds. In order to continue to meet its fiscal obligations in the current fiscal year and beyond, we must seek additional financing, but there can be no assurances that we will be successful in these efforts. These factors raise substantial doubt about our ability to continue as a going concern. Its ability to continue as a going concern is dependent upon our ability to generate profitable returns in the future and/or to obtain the necessary financing to meet its obligations and repay its liabilities arising from normal business operations when they come due. The accompanying consolidated financial statements do not include any adjustments that might result from the outcome of this uncertainty.

**Trend Information**

*<u>Quartzite</u>*

Our quartzite project started its activities in 2023, with a trial mining period. In 2024, our quartzite operation generated gross revenues of $748,654 and gross margins of $265,694 or 35.49%. During 2024, our quartzite operation produced 610.09 cubic meters (m<sup>3</sup>) of quartzite blocks and 1,384.92 square meters (m<sup>2</sup>) of polished quartzite slabs, of which 946.49 m<sup>2</sup> were from our own blocks and 438.43 m<sup>2</sup> were from acquired third-party blocks destined only for slab production. During 2024, we sold 550.92 m<sup>3</sup> of blocks and 893.63 m<sup>2</sup> of polished slabs. As of December 31, 2024, our inventory was 147.99 m<sup>3</sup> of blocks and 641.12 m<sup>2</sup> of slabs.

Our production of unprocessed blocks of quartzite and quartzite slabs is currently paused while we undergo modifications to our operations to address certain identified issues. The primary issue to be resolved is the adoption of an updated drainage plan for the quarry. We have retained an engineering firm to prepare an updated drainage plan for a cost of approximately $2,320, and expect to resume operations by year end 2025.

**Currency Risk**

We operate primarily in Brazil which exposes us to currency risks. Our business activities may generate intercompany receivables or payables that are in a currency other than the functional currency of the entity. Changes in exchange rates from the time the activity occurs to the time payments are made may result in us receiving either more or less in local currency than the local currency equivalent at the time of the original activity.

Our condensed consolidated financial statements are denominated in U.S. dollars. Accordingly, changes in exchange rates between the applicable foreign currency and the U.S. dollar affect the translation of each foreign subsidiary's financial results into U.S. dollars for purposes of reporting in the consolidated financial statements. Our foreign subsidiaries translate their financial results from the local currency into U.S. dollars in the following manner: (a) income statement accounts are translated at average exchange rates for the period; (b) balance sheet asset and liability accounts are translated at end of period exchange rates; and (c) equity accounts are translated at historical exchange rates. Translation in this manner affects the shareholders' equity account referred to as the foreign currency translation adjustment account. This account exists only in the foreign subsidiaries' U.S. dollar balance sheets and is necessary to keep the foreign subsidiaries' balance sheets in agreement.

**Off-Balance Sheet Arrangements**

We currently have no off-balance sheet arrangements.

**Critical Accounting Policies and Estimates**

The preparation of financial statements in conformity with U.S. GAAP requires management to make estimates and assumptions that affect the reported amounts of assets and liabilities and disclosure of contingencies at the date of the financial statements and the reported amount of revenues and expenses during the reporting period. Actual results may differ from those estimates.

*<u>Going Concern</u>*

The consolidated financial statements have been prepared on a going concern basis which contemplates the realization of assets and the settlement of liabilities in the normal course of business. We have limited working capital, has incurred losses since its inception, and has not yet generated material revenues from the sale of its products or services. These factors create substantial doubt about our ability to continue as a going concern. The consolidated financial statements do not include any adjustment that might be necessary if we are unable to continue as a going concern.

Our ability to continue as a going concern is dependent on us generating cash from our operations, the sale of our stock and/or obtaining debt financing. During the year ended December 31, 2024, we funded operations primarily through the sale of equity securities ($1,595,750 in 2024), and cash generated by our quartzite operation (gross profit of $265,694 in 2024). For the next 12 months, Management intends to cover any operating losses by using existing cash and cash equivalents, generating cash flow from our quartzite operation upon recommencement of production currently anticipated in the third quarter of 2025 and, if necessary, selling its equity securities and obtaining debt financing. There can be no assurance that we will be successful in these efforts.

*<u>Fair Value of Financial Instruments</u>*

We follow the guidance of Accounting Standards Codification ("ASC") Topic 820 – Fair Value Measurement and Disclosure. Fair value is defined as the exit price, or the amount that would be received to sell an asset or paid to transfer a liability in an orderly transaction between market participants as of the measurement date. The guidance also establishes a hierarchy for inputs used in measuring fair value that maximizes the use of observable inputs and minimizes the use of unobservable inputs by requiring that the most observable inputs be used when available. Observable inputs are inputs market participants would use in valuing the asset or liability and are developed based on market data obtained from sources independent of us. Unobservable inputs are inputs that reflect our assumptions about the factors market participants would use in valuing the asset or liability. The guidance establishes three levels of inputs that may be used to measure fair value:

Level 1. Observable inputs such as quoted prices in active markets;

Level 2. Inputs, other than the quoted prices in active markets, that are observable either directly or indirectly; and

Level 3. Unobservable inputs in which there is little or no market data, which require the reporting entity to develop its own assumptions.

As of December 31, 2024, we did not have any level 2 or 3 assets or liabilities.

Our financial instruments consist of cash and cash equivalents, accounts payable, and accrued expenses. The carrying amount of these financial instruments approximates fair value due to either length of maturity or interest rates that approximate prevailing market rates unless otherwise disclosed in these consolidated financial statements.

*<u>Property and Equipment</u>*

Property and equipment are stated at cost. Major improvements and betterments are capitalized. Maintenance and repairs are expensed as incurred. Depreciation is computed using the straight-line method over the estimated useful life. At the time of retirement or other disposition of property and equipment, the cost and accumulated depreciation are removed from the accounts and any resulting gain or loss is reflected in the statements of operations as other gain or loss, net.

The diamond and gold processing plant and other machinery are depreciated over an estimated useful life of ten years; vehicles are depreciated over an estimated life of five years; and computer and other office equipment over an estimated useful life of three years.

*<u>Mineral Properties</u>*

Costs of exploration, carrying and retaining unproven mineral lease properties are expensed as incurred. Mineral property acquisition costs, including licenses and lease payments, are capitalized. Impairment losses are recorded on mineral properties used in operations when indicators of impairment are present and the undiscounted cash flows estimated to be generated by those assets are less than the assets' carrying amount. We did not recognize any impairment losses related to mineral properties held during the years ended December 31, 2024, 2023 and 2022.

For intangible assets purchased in a business combination, the estimated fair values of the assets received are used to establish their recorded values. For intangible assets acquired in a non-monetary exchange, the estimated fair values of the assets transferred (or the estimated fair values of the assets received, if more clearly evident) are used to establish their recorded values, unless the values of neither the assets received nor the assets transferred are determinable within reasonable limits, in which case the assets received are measured based on the carrying values of the assets transferred. Valuation techniques consistent with the market approach, income approach and/or cost approach are used to measure fair value. These rights are held in perpetuity provided that we remain in compliance with various government regulations and industry requirements.

*<u>Impairment of Long-Lived Assets</u>*

For long-lived assets, such as property and equipment and intangible assets subject to amortization, we continually monitor events and changes in circumstances that could indicate carrying amounts of long-lived assets may not be recoverable. When such events or changes in circumstances are present, we assess the recoverability of long-lived assets by determining whether the carrying value of such assets will be recovered through undiscounted expected future cash flows. If the total of the future undiscounted cash flows is less than the carrying amount of those assets, we recognize an impairment loss based on the excess of the carrying amount over the fair value of the assets. Assets to be disposed of are reported at the lower of the carrying amount or the fair value less costs to sell.

*<u>Stock-Based Compensation</u>*

The Company records stock-based compensation in accordance with ASC Topic 718, Compensation - Stock Compensation. ASC 718 requires companies to measure compensation cost for stock-based employee compensation at fair value at the grant date and recognize the expense over the employee's requisite service period. Under ASC 718, volatility is based on the historical volatility of our stock or the expected volatility of the stock of similar companies. The expected life assumption is primarily based on historical exercise patterns and employee post-vesting termination behavior. The risk-free interest rate for the expected term of the option is based on the U.S. Treasury yield curve in effect at the time of grant.

We utilize the Black-Scholes option-pricing model, which was developed for use in estimating the fair value of options. Option-pricing models require the input of highly complex and subjective variables including the expected life of options granted and the expected volatility of our stock price over a period equal to or greater than the expected life of the options. Because changes in the subjective assumptions can materially affect the estimated value of our employee stock options, it is management's opinion that the Black-Scholes option-pricing model may not provide an accurate measure of the fair value of our employee stock options. Although the fair value of employee stock options is determined in accordance with ASC Topic 718 using an option-pricing model, that value may not be indicative of the fair value observed in a willing buyer/willing seller market transaction.

On June 20, 2018, the FASB issued ASU 2018-07 which simplifies the accounting for share-based payments granted to non-employees for goods and services. Under the ASU, most of the guidance on such payments to non-employees would be aligned with the requirements for share-based payments granted to employees.

Equity classified share-based payments for employees are fixed at the time of grant. Equity-classified non-employee share-based payment awards are measured at the grant date of the award which is the same as share-based payments for employees. We adopted the requirements of the new rule as of January 1, 2019, the effective date of the new guidance.

*<u>Foreign Currency</u>*

Our subsidiaries, MJL, MAL, MDB and RST, use their local currency (Brazilian Real) as their functional currency. Resulting translation gains or losses are recognized as a component of accumulated other comprehensive income. Transaction gains or losses related to balances denominated in a currency other than the functional currency are recognized in the consolidated statements of operations.

**Recent Accounting Pronouncements**

Our consolidated financial statements are prepared in accordance with U.S. GAAP. Our significant accounting policies are described in Note 1 of the financial statements. We have reviewed all recent accounting pronouncements issued to the date of the issuance of these financial statements, and we do not believe any of these pronouncements will have a material impact on us.

**Quantitative and Qualitative Disclosure about Market Risk**

We consider market risk to be the potential loss arising from adverse changes in market rates and prices. In the ordinary course of our business as currently conducted, which primarily consists of our mining development activities, we are not exposed to market risk of the sort that may arise from changes in commodity prices, interest rates or foreign currency exchange rates.

***Foreign Exchange Risk***

***Interest Rate Risk***

As of the date of this Prospectus, we have no floating rate indebtedness.

**BUSINESS**

**History and Development of the Company**

*Date of Incorporation, Legal Form, Domicile, & Business Summary*

On July 27, 2016, Atlas Critical Minerals Corporation ("Atlas Critical Minerals" or "the Company") was incorporated as Jupiter Gold Corporation ("Jupiter Gold") under the laws of the Republic of the Marshall Islands. Concurrently, Atlas Lithium Corporation (formerly known as Brazil Minerals, Inc.) ("Atlas Lithium"), a Nevada corporation, exchanged its 99.99% ownership in Mineração Jupiter Ltda ("MJL"), a Brazilian company, for 4,000,000 shares of Jupiter Gold's common stock. Atlas Lithium held an approximate 32.70% interest in the Company as of December 31, 2024. The Company trades on the OTC Markets (OTCQB) under the symbol JUPGF.

Our registered office and principal executive offices are located at Rua Antonio de Albuquerque, 156 – 17th Floor, Belo Horizonte, MG 30.112-010, Brazil, and our telephone number is +1-888-412-0210. The information on, or that can be accessed through, our website is not part of and should not be incorporated by reference into this annual report or any other report we file or furnish to the U.S. Securities and Exchange Commission (the "SEC"). The SEC maintains a website at www.sec.gov that contains reports, proxy and information statements, and other information regarding issuers that file electronically with the SEC.

On November 6, 2024 the Company and Apollo Resources Corporation, a Republic of the Marshall Islands corporation ("Apollo Resources"), entered into an Agreement and Plan of Merger, which provided for, among other things, the merger of Apollo Resources with and into the Company (the "Merger"), with the Company continuing its corporate existence as the surviving corporation. Prior to the Merger, Apollo Resources was a majority-owned subsidiary of Atlas Lithium.

On November 19, 2024, following satisfaction and/or waiver of the closing conditions in the Merger agreement, including approval of the transactions contemplated under the Merger Agreement by the requisite vote of the shareholders of Jupiter Gold and Apollo Resources, respectively, the Merger was consummated and Apollo Resources merged with and into the Company.

In connection with the consummation of the Merger, each share of outstanding Apollo Resources securities was cancelled and converted into 6.62 shares of the Company's common stock. Immediately following the Merger, the holders of outstanding Apollo Resources securities owned approximately 59.40% of the Company's outstanding securities. Our Founder, Chief Executive Officer and Chairman, Mr. Fogassa, who is also the Chief Executive Officer of Atlas Lithium, holds 34.4% of the Company's outstanding equity interest and, directly and indirectly, controls approximately 83.3% of the voting power of its outstanding securities following the Merger.

On November 19, 2024, our Articles of Incorporation were amended and restated in order to (i) increase the authorized share capital of the Company to 200,000,000 shares, and (ii) increase the number of shares of authorized common stock to 190,000,000 shares. The foregoing description is only a summary of the Amended and Restated Articles of Incorporation and is qualified in its entirety by reference to the full Amended and Restated Articles of Incorporation, which are filed as Exhibit 1.1 hereto and incorporated by reference.

After the Merger, the Company's wholly owned subsidiaries now include Mineração Jupiter Ltda, Mineração Apollo Ltda, Mineração Duas Barras Ltda, and RST Recursos Minerais Ltda. Please refer to Note 2 of our audited consolidated financial statements for the accounting impacts arising from the Merger.

On December 18, 2024, the Company entered into an Option Agreement (the "Option Agreement") with Atlas Lithium Corporation ("Atlas Lithium")), pursuant to which the Company acquired an option to acquire 100% of the equity interests of Brazil Minerals Resources Corporation ("BMR"), a wholly-owned subsidiary of Atlas Lithium (the "Option"). As consideration for the Option, the Company issued to Atlas Lithium 797,957 shares of our common stock, representing $500,000 divided by a value per share of $0.6266.

The Option is exercisable no earlier than the filing by the Company of a Form F-1 registration statement with the SEC and within 12 months thereafter. If the Option is exercised, the Company and Atlas Lithium shall enter into a definitive purchase agreement for the purchase of BMR pursuant to which the Company shall pay to Atlas Lithium total consideration of $8,000,000, which at the discretion of Atlas Lithium shall be in the form of cash, shares of the Company's common stock, or a combination of cash and shares of the Company's common stock. In the event that the Option is exercised, Atlas Lithium shall additionally be entitled to a perpetual royalty of one point five percent (1.5%) of the revenues resulting from the mineral rights owned by BMR as of the date of the Option Agreement.

On December 20, 2024, the Articles of Incorporation of the Company, a Republic of the Marshall Islands corporation were amended to change the name of the Company to from Jupiter Gold Corporation to Atlas Critical Minerals Corporation. This name change was carried out to reflect a broader focus of the Company following its merger with Apollo Resources. On January 27, 2025, in connection with such an amendment, the Company filed a Certificate of Correction to correct the omission of a reference to the Company's original Articles of Incorporation, dated July 27, 2016, in Section 2 of the Articles of Amendment.

We have no debt, except for operational payables. We have been primarily funded to date by sales of our common stock. We are prohibited from issuing variable-rate convertible debt by our Bylaws.

**Business** **Overview**

We are a mineral exploration and development company focused on critical minerals projects and properties in Brazil. Our portfolio includes principally mineral properties for rare earths, graphite, titanium, copper, and nickel, all of which are commonly considered to be "critical minerals". Certain of our mineral rights for copper and rare earths may also contain uranium, which is also a "critical mineral". Although our primary focus is on our critical mineral properties which are currently in development, we also have a quartzite operation, which is our sole property currently generating revenues, as well as a permit to operate an iron ore mine with planned operations commencing prior to the end of 2025. We also own mineral rights for gold and diamonds. Our production of unprocessed blocks of quartzite and quartzite slabs is currently paused while we undergo modifications to our operations to address certain identified issues, principally consisting of the adoption of an updated drainage plan for the quarry. We expect to resume operations by year end 2025.

<u>Mineral Properties</u>

Our current mineral properties are listed below, and do not include any mineral properties that would be acquired if we exercise the Option (defined below).

*<u>Critical Minerals</u>*

● <u>Rare Earths</u>: 53,939.23 hectares (~133,287 acres) in 33 mineral rights in Brazil with 18 in the state of Goiás and 15 in the state of Minas Gerais; 30 of such mineral rights are in the phase of exploration permit and three are in the phase of request for exploration permit. Titanium, another critical mineral, has been found within our 15 mineral rights for rare earths in the state of Minas Gerais.

● <u>Graphite</u>: 9,699.12 hectares (~23,967 acres) in three mineral rights in Brazil in the state of Minas Gerais, all in the phase of exploration permit; one of the mineral rights is in the final stage for formal recording at ANM of its transfer from a third-party prior owner to us.

● <u>Uranium</u>: 105,420.07 hectares (~ 260,499 acres) in 22 mineral rights in Brazil with eight in the state of Goiás, five in the state of Minas Gerais, two in the state of Pará, and seven in the state of Tocantins, all in the phase of request for exploration permit; these mineral rights list copper, graphite, phosphate and/or rare earths as exploration minerals since Brazilian legislation at the moment does not allow uranium to be formally listed as an exploration mineral.

● <u>Copper</u>: 7,156.06 hectares (~17,683 acres) in four mineral rights in Brazil in the state of Goiás, all in the phase of exploration permit.

● <u>Nickel</u>: 1,101.24 hectares (~2,721 acres) in one mineral right in Brazil in the state of Piauí, in the phase of exploration permit.

*<u>Other Minerals</u>*

● <u>Iron Ore</u>: 22,280.78 hectares (~55,057 acres) in 18 mineral rights in Brazil with 10 in the state of Minas Gerais, seven in the state of Alagoas, and one in the state of Mato Grosso do Sul. One mineral right has obtained the status of mining concession; of the other 17 mineral rights, 15 are in the phase of exploration permit and two in the phase of request for exploration permit.

● <u>Gold</u>: 50,876 hectares (~125,716 acres) in 17 mineral rights in Brazil with 10 in the state of Minas Gerais, three in the state of Amazonas, three in the state of Mato Grosso, and one which straddles the state of Goiás and the state of Tocantins, with 16 in the phase of exploration permit and two in the phase of request for exploration permit.

● <u>Quartzite</u>: 94 hectares (~233 acres), in one mineral right in Brazil in the state of Minas Gerais where we established a quartzite quarry. Our production of unprocessed blocks of quartzite and quartzite slabs is currently paused while we undergo modifications to our operations to address certain identified issues, principally consisting of the adoption of an updated drainage plan for the quarry. We expect to resume operations by year end 2025.

We believe the growing demand for critical minerals needed for clean energy, defense, and high-tech applications present significant long-term opportunities. Our goal is to become a leading company supplying critical minerals. We are in the early stages of exploration of our critical mineral portfolio and are working to advance our understanding of its potential.

The various critical minerals in our portfolio have various important applications. Rare earth elements are crucial for permanent magnets used in electric motors and wind turbines, and for semiconductor and defense applications. Graphite is a key component in lithium-ion batteries, while titanium has applications in aerospace and medical technologies.

Our exploration activities to date have included geological mapping, geochemical sampling, geophysical surveys, and limited exploratory drilling to identify potential mineralized zones within a few of our mineral rights. As we advance our understanding of these critical mineral properties, we may conduct extensive exploratory programs including drilling campaigns to identify and quantify mineral resources. Our exploration programs follow the accepted guidelines under Regulation S-K 1300.

We aim to create value through continued exploration, resource delineation, and potential development of these assets over time. By maintaining a diverse portfolio of critical minerals projects, our objective is to seek to position us as a significant player in the global critical minerals supply chain.

The main technical studies carried out on these mineral rights have included:

---

| |
|:---|
| First-Step Reconnaissance: Rapid geological reconnaissance performed targeting the main outcrops that occur in the area with identification of geological units. Rock sampling is performed in parallel (chip sampling). |
| Detailed Mapping: Semi-detailed geological mapping with identification and description of outcrops that represent the entire unit of interest in the area. The base, thickness and continuity, or lateral variation of the layers are also identified. Focuses on identifying the main facies and distribution of the Mata da Corda group. It is also accompanied by rock surface sampling (chip sampling). |
| Surface sampling consists of collecting rock chip samples (2 to 3 kilograms) of rock outcrops and soils of interest after identification, description, and classification. These samples are sent to the laboratory (SGS Brazil) and analyzed by ICP-OES and ICP-MS, resulting in the concentration of 56 elements in ppm. |
| The auger drilling samples are half of the core, with a sampling interval of 1 meter in general. These samples were described and sent for analysis of 48 elements by lithium metaborate fusion - ICP OES/MS (SGS Brazil). QA/QC samples, blanks, and standards are distributed and analyzed into batches. |

---

**Atlas Lithium Option Agreement**

On December 19, 2024, we entered into an option agreement (the "Option Agreement") with Atlas Lithium. Pursuant to the Option Agreement, Atlas Lithium granted us the exclusive right and option (the "Option") to purchase from Atlas Lithium 100% of the equity interest in Brazil Mineral Resources Corporation, a Republic of the Marshall Islands corporation and a wholly-owned subsidiary of Atlas Lithium ("Brazil Mineral Resources") (the "Equity Sale"). Brazil Mineral Resources' primary assets consist of 60 mineral rights for copper, gold, graphite, nickel, rare earths, and titanium, all in Brazil.

During the Option Term (as defined below), we may deliver to Atlas Lithium (i) a written notice (a "Preliminary Option Notice") indicating that we propose to exercise the Option and (ii) a proposed form of Purchase Agreement (the "Initial Draft Agreement"). The parties thereto shall thereafter use their best efforts for the thirty-business day period following the date of Atlas Lithium's receipt of the Initial Draft Agreement to finalize and execute a definitive purchase agreement and consummate the Equity Sale. In connection with the Option Exercise (as defined below), we shall pay to Atlas Lithium total consideration in the amount of US$8.0 million (the "Option Consideration"). At Atlas Lithium's discretion, the Option Consideration shall be payable in either (i) cash; (ii) shares of our common stock valued at a fixed price of $0.6266 per share; or (iii) a combination of cash and stock (the "Option Exercise").

Following the Option Exercise, Atlas Lithium shall be entitled to a perpetual royalty of one point five percent (1.5%) of the gross revenues from any of the mineral rights owned by, or being formally transferred to, the Company or any of its subsidiaries pursuant to the Option Agreement (the "Royalty"). The Royalty shall be subject to the terms and conditions of a royalty agreement to be mutually negotiated and entered into by and between the Company and Atlas Lithium on the date of the Company's Option Exercise.

The Option is exercisable no earlier than the filing by the Company of a Form F-1 registration statement with the SEC, in connection with listing of the Company's common stock on Nasdaq, and within 12 months thereafter (the "Option Term"). If the Company does not exercise the Option within the Option Term, the Option will automatically expire on the last day of the Option Term, unless the parties to this Agreement mutually agree to extend the Option Term in writing.

As consideration for entering into the Option Agreement, we issued to Atlas Lithium 797,957 shares of our common stock.

The Option Exercise shall be subject to such terms and subject to such conditions to be set forth in a separate purchase agreement to be entered between the parties at the time of the Option Exercise. The foregoing summary is qualified in its entirety by reference to the Option Agreement filed as Exhibit 10.1 to this Registration Statement.

**<u>Primary Exploration Focus</u>**

Our primary exploration focus is on advancing our rare earths, titanium, and graphite projects to support the growing global demand for these critical minerals. Although our primary focus is on our critical material mineral properties which are currently in development, we also have a quartzite operation, which was previously our sole property generating revenues, as well as a permit to operate an iron ore mine with planned operations commencing prior to the end of 2025. See "*Business-Iron Ore-Overview*" on page 92 of this prospectus, and "*Business-Quartzite-Overview*" on page 98 of this prospectus.

**Critical Minerals and Geopolitical Background**

The U.S. sits atop a vast and intricate supply chain, relying on scarce and strategically critical minerals for its economy and national security—yet it controls only a fraction of global reserves.

● <u>Limited Domestic Supply</u> **:** The U.S. holds less than 2% of global reserves for rare
 earth elements, graphite, cobalt, and nickel.

● <u>Economic Impact of Supply Disruptions</u> **:** Rare earths drive $298 billion in economic activity, supporting 535,000 U.S. jobs and $33.3 billion in payroll. They
also warn that disruptions could severely impact industries and quality of life.

<u>The First Trump Administration</u>

● <u>2020 Joint Action Plan with Canada</u>: President Trump signed a Joint Action Plan with Canada
 to secure critical mineral supply chains, focusing on reducing reliance on foreign sources, particularly China.

● <u>Energy Resource Governance Initiative (ERGI)</u>: The U.S. partnered with Australia and Botswana
 to promote transparent and sustainable mineral markets under the ERGI program.

● <u>Energy Act of 2020</u> **:** This legislation directed federal agencies to identify critical
 minerals and reduce barriers to mining and production.

● <u>Executive Orders</u>: Trump issued multiple executive orders addressing critical mineral vulnerabilities,
 including declaring a national emergency to expedite domestic mining and refining.

<u>The Biden Administration</u>

● <u>Mineral Security Partnership (2024)</u>: The Biden administration launched this U.S.-led
 initiative with the EU and 13 other nations to finance critical mineral projects, counter China's dominance, and enhance global
 cooperation.

● <u>Executive Order 14017 (2021)</u>: Biden issued this order to assess U.S. supply chain
 vulnerabilities and implement over 70 actions to strengthen resilience in critical minerals, semiconductors, and other strategic sectors.

● <u>Progress on Projects</u>: Under the Mineral Security Partnership, approximately 32
 projects were initiated across the supply chain, including 19 focused on upstream mining and extraction.

<u>The Second Trump Administration</u>

Escalation of Trade Disputes: During the second Trump administration, the U.S. has enacted tariffs on China which have escalated to 145%. China counter-acted with imposition of 125% of tariffs in U.S. goods and a prohibition of the export of processed rare earth minerals to the U.S.

<u>China</u>

China has repeatedly used export controls on critical minerals, disrupting global and U.S. supply. Rare earth quotas, imposed since the 2000s, drew concern after China halted shipments to Japan in 2010. More recently, China retaliated against U.S. tariffs by restricting the export of key minerals. In response to supply chain vulnerabilities, the U.S. imposed a 25% tariff on Chinese graphite anodes to encourage domestic production in June of 2024. China countered with export permit requirements for graphite products, directly affecting U.S. imports.

China implemented an outright ban on exporting antimony to the U.S. in December 2024 and prices in the U.S. increased 250%. China produces approximately 48% of global antimony.

China also implemented an outright ban on exporting germanium to the U.S. in December 2024. China produces approximately 60% of global germanium. China also implemented an outright ban on exporting gallium to the U.S. in December 2024. China produces approximately 98% of global gallium.

On April 4, 2025, China unveiled export controls on seven critical rare earth elements - samarium, gadolinium, terbium, dysprosium, lutetium, scandium, and yttrium.

Through strategic investments and export controls, China has cemented its influence over critical mineral supply chains, representing a significant challenge to the U.S. economy and security.

**<u>Rare Earths Elements</u>**

**Overview**

Rare earth elements, or simply "rare earths", are a group of 17 chemically similar elements that include the 15 lanthanides, along with scandium and yttrium. These elements are not particularly rare in terms of abundance in the Earth's crust; however, they are rarely found in economically exploitable concentrations. Rare earths are crucial for a variety of modern technologies due to their unique properties, which allow them to enhance the performance of materials and devices. They are used in the production of strong permanent magnets, phosphors for lighting and displays, catalysts in petroleum refining, and in various electronic devices, including smartphones and electric vehicles.

China is the dominant player in the global rare earths market, holding the largest reserves and controlling a significant portion of the processing capacity. According to the U.S. Geological Survey, China possesses approximately 44 million metric tons of rare earth reserves, which accounts for a substantial share of the world's total. Other countries with notable reserves include Brazil, with 21 million metric tons; India, with 6.9 million metric tons; and Australia, with 5.7 million metric tons. Despite these reserves, many countries struggle to compete with China's established supply chain and processing capabilities, which have been developed over decades. As a result, China has maintained a near-monopoly on the processing of rare earths, representing over 90% of the global supply. Rare earths have been on the list of minerals considered critical to the economic and national security of the United States since first published by the U.S. Department of the Interior on May 18, 2018.

The uses of rare earths are extensive and critical to various industries. In the renewable energy sector, rare earths are essential for manufacturing high-performance magnets used in wind turbines and electric vehicles. For instance, neodymium and dysprosium are key components in the production of strong permanent magnets that improve the efficiency and durability of these technologies. Additionally, rare earths are used in the production of catalysts for refining petroleum, which is vital for the energy sector, as well as in the manufacturing of advanced electronics, including smartphones, tablets, and televisions. The demand for these elements is expected to grow significantly as the world shifts towards cleaner energy solutions and advanced technologies.

Rare earth metals represent a critical component to the U.S. economy. As the U.S. aims to enhance its technological capabilities and reduce reliance on foreign sources, securing a stable supply of rare earths has become a national priority. The U.S. currently holds about 1.9 million metric tons of rare earth reserves, primarily located at the Mountain Pass mine in California. However, the country is heavily dependent on imports, with over 60% of its rare earths coming from China. This reliance poses significant risks, particularly in light of ongoing trade tensions and geopolitical challenges. The U.S. government has recognized the strategic importance of rare earths and is actively seeking to bolster domestic production and processing capabilities to ensure a resilient supply chain for critical minerals.

Rare earth elements are vital to modern technology and renewable energy solutions, with China currently dominating the market in both reserves and processing. Other countries, such as Brazil and Australia, hold significant reserves but face challenges in competing with China's established infrastructure. As the U.S. economy increasingly relies on advanced technologies, securing a stable supply of rare earths is essential for maintaining competitiveness and national security.

The 17 rare earths elements are (name / symbol / atomic number):

&nbsp;&nbsp;&nbsp;&nbsp;1. Scandium
 (Sc): 21

&nbsp;&nbsp;&nbsp;&nbsp;2. Yttrium
 (Y): 39

&nbsp;&nbsp;&nbsp;&nbsp;3. Lanthanum
 (La): 57

&nbsp;&nbsp;&nbsp;&nbsp;4. Cerium
 (Ce): 58

&nbsp;&nbsp;&nbsp;&nbsp;5. Praseodymium
 (Pr): 59

&nbsp;&nbsp;&nbsp;&nbsp;6. Neodymium
 (Nd): 60

&nbsp;&nbsp;&nbsp;&nbsp;7. Promethium
 (Pm): 61

&nbsp;&nbsp;&nbsp;&nbsp;8. Samarium
 (Sm): 62

&nbsp;&nbsp;&nbsp;&nbsp;9. Europium
 (Eu): 63

&nbsp;&nbsp;&nbsp;&nbsp;10. Gadolinium
 (Gd): 64

&nbsp;&nbsp;&nbsp;&nbsp;11. Terbium
 (Tb): 65

&nbsp;&nbsp;&nbsp;&nbsp;12. Dysprosium
 (Dy): 66

&nbsp;&nbsp;&nbsp;&nbsp;13. Holmium
 (Ho): 67

&nbsp;&nbsp;&nbsp;&nbsp;14. Erbium
 (Er): 68

&nbsp;&nbsp;&nbsp;&nbsp;15. Thulium
 (Tm): 69

&nbsp;&nbsp;&nbsp;&nbsp;16. Ytterbium
 (Yb): 70

&nbsp;&nbsp;&nbsp;&nbsp;17. Lutetium
 (Lu): 71

Rare earths ("REEs") are classified as "light" and "heavy" based on atomic number. Light REEs ("LREEs") are comprised of lanthanum through gadolinium (atomic numbers 57 through 64), while heavy REEs ("HREEs") are comprised of terbium through lutetium (atomic numbers 65 through 71) and yttrium (atomic number 39), which has similar chemical and physical attributes to the HREEs. HREEs tend to be less abundant and more expensive than LREEs.

Neodymium and praseodymium are key critical materials in the manufacturing of magnets that have the highest magnetic strength among commercially available magnets and enable high energy density and high energy efficiency in diverse uses. Dysprosium and terbium are key critical materials often added to the magnet alloys to increase the operating temperature.

Some uses for other rare earth elements include:

● <u>Scandium</u>: Critical for aerospace alloys. The U.S. imports 100% from China and Russia.

● <u>Yttrium</u>: Used in radar systems and superconductors. The U.S. is 100% import-dependent, with
 94% from China.

● <u>Neodymium</u>: Critical for permanent magnets used in electric vehicles, wind turbines, and drones.
 China controls 70% of production.

● <u>Terbium</u>: Essential for lasers and sonar systems. China controls 90% of global supply.

● <u>Dysprosium</u>: Used in magnets for drones and wind turbines. China supplies 85% globally.

**Rare Earths in Brazil**

Brazil has significant potential for rare earths, which are critical for various high-tech applications, including electric vehicles, renewable energy technologies, and advanced electronics. The country is believed to possess the third-largest reserves of rare earth metals globally, with estimates suggesting around 22 million tons of these valuable minerals, primarily located in states such as Minas Gerais, Bahia, Goiás, and São Paulo. The Serra Verde project, Brazil's first integrated rare earth mine, began operations recently and is expected to produce approximately 5,000 tons of rare earth oxides annually, focusing on essential elements like neodymium and praseodymium.

Despite these promising reserves, Brazil faces challenges in developing its rare earth industry, including low global prices for rare earth metals and the need for advanced processing technologies, which are currently dominated by a few players, primarily in China. However, the Brazilian government is actively supporting the sector, having allocated $195 million to finance important mineral projects, including rare earths, and is exploring recycling initiatives to enhance supply chain sustainability. With continued investment and strategic development, Brazil could emerge as a key player in the global rare earth market, potentially reducing reliance on Chinese supplies and strengthening its position in the international minerals landscape.

**<u>Our Rare Earths Effort</u>**

We hold approximately 53,692 acres of mineral rights for rare earths across two distinct projects: the Alto Paranaíba Project in the state of Minas Gerais and the Goiás Project in the state of Goiás, both described below. In the Alto Paranaíba Project, titanium, another critical mineral, occurs alongside rare earths. While management currently intends to exploit its material mineral rights that are the principal focus of our development efforts, as more particularly set forth below, we possess additional mineral rights that we consider to be immaterial to our current development plan. Management intends to continue to evaluate such mineral rights with the objective to develop such mineral rights at such time as the Company's business develops and economic conditions justify their further development and extraction. A further description of these mineral rights, including maps showing the locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

**<u>Titanium</u>**

**Overview**

Vital for aerospace (jet engines, airframes) and military applications (armor, missiles). The U.S. imports ~100% of titanium sponge, with China influencing 34% of global mineral production.

Titanium is a lightweight, high-strength metal known for its exceptional corrosion resistance and ability to withstand extreme temperatures. It is primarily derived from minerals such as ilmenite (FeTiO3) and rutile ("TiO2"). Titanium's unique properties make it an ideal material for various applications, particularly in the aerospace, automotive, medical, and construction industries. Its strength-to-weight ratio is superior to that of steel, making it a preferred choice for components that require both durability and reduced weight.

The global distribution of titanium reserves is concentrated in a few key countries. As of 2023, Australia and China are the largest holders of titanium reserves, with Australia possessing approximately 40 million metric tons of ilmenite and rutile combined, while China holds around 30 million metric tons. Other countries with significant titanium reserves include India, South Africa, and Canada, each contributing to the global supply of titanium minerals. Notably, Australia is also a major producer of titanium, with its operations primarily focused on ilmenite extraction, which is the most common source of titanium.

China plays a dominant role in the processing of titanium, controlling a significant portion of the global supply chain. The country is responsible for refining a large percentage of the world's titanium, leveraging its extensive mining operations and processing facilities. This concentration of processing capacity raises concerns for other nations, particularly the United States, which relies on imported titanium for various applications. The U.S. has limited domestic production capabilities, making it vulnerable to supply chain disruptions.

Titanium is utilized in a wide range of applications due to its desirable properties. In the aerospace industry, titanium is used for manufacturing aircraft components, including airframes and engine parts, due to its lightweight and high strength. In the medical field, titanium is favored for implants and prosthetics because of its biocompatibility and resistance to corrosion. Additionally, titanium is used in the automotive industry for components that require high strength and low weight, contributing to fuel efficiency. The construction sector also employs titanium in various applications, including roofing and structural components, due to its durability and resistance to environmental degradation.

The importance of titanium to the U.S. economy is significant, particularly as the country seeks to enhance its technological capabilities and reduce reliance on foreign sources. The U.S. titanium market is projected to grow substantially, driven by increasing demand from the aerospace and defense sectors. In 2022, the global titanium market was valued at approximately $28.59 billion, with expectations to reach nearly $52 billion by 2030. This growth underscores the critical role titanium plays in supporting advanced manufacturing and technological innovation in the U.S.

In conclusion, titanium is a vital metal with significant reserves concentrated in a few countries, primarily Australia and China. Its diverse applications across various industries highlight its importance to the U.S. economy, particularly in aerospace and medical sectors. As the demand for titanium continues to rise, ensuring a stable supply chain and enhancing domestic production capabilities will be crucial for maintaining the U.S.'s competitive edge in technology and manufacturing. Titanium has been on the list of the 35 minerals considered critical to the economic and national security of the United States since it was first published by the U.S. Department of the Interior on May 18, 2018.

**Titanium in Brazil**

Brazil has significant potential for titanium production, particularly through its rich mineral resources and ongoing investments in the sector. The country is home to substantial reserves of titanium-bearing minerals, primarily ilmenite and rutile, which are essential for producing titanium dioxide ("TiO₂") and titanium metal. Recent reports indicate that Brazil's titanium production capacity is expected to increase, driven by projects such as Largo Resources' Maracás Menchen Mine, which has substantial titanium reserves alongside vanadium. This mine is projected to produce approximately 6.89 million tons of contained TiO₂, highlighting Brazil's potential to become a key player in the global titanium market.

Moreover, Brazil's titanium market is poised for growth due to rising demand in various industries, including aerospace, automotive, and construction. The country's strategic initiatives to enhance its mining capabilities and improve processing technologies are expected to attract foreign investment and foster partnerships with international companies. As the global demand for titanium continues to rise, particularly for applications in lightweight and high-strength materials, Brazil's rich titanium resources could play a crucial role in meeting this demand and establishing the country as a significant supplier in the international market.

**Our Titanium Efforts**

In our Alto Paranaíba Project in the state of Minas Gerais, titanium is found alongside rare earths elements. We describe our initial titanium results in the section below titled "*Alto Paranaíba Project*."

**<u>Alto Paranaíba Project – Rare Earths and Titanium Mineral Properties</u>**

The Alto Paranaíba Project encompasses mineral rights in the municipalities of Carmo do Paranaíba, Lagoa Formosa, Patos de Minas, Presidente Olegário, and Tiros in the state of Minas Gerais in Brazil, distant approximately 350 km from Belo Horizonte, that state's capital and where our primary office is located. The name "Alto Paranaíba" refers to the Paranaíba River that flows in the region.

The location where the Alto Paranaíba Project is inserted is a significant mineral province known for deposits of rare earth elements, titanium, phosphate, and other valuable minerals.

Rare earths and titanium mineralization in the Alto Paranaíba Project is associated with a Cretaceous geological unit, the Mata da Corda Group, which is positioned at the top of the region's geological sequence, supporting flat hills with a 100-meter elevation difference. The Mata da Corda group is subdivided into the Patos Formation, which consists of volcanic rocks with a kamafugite, kimberlite and lamproite affinity (alkaline-ultramafic magmatism – with high P and K), and the Capacete Formation, which contains conglomerates and sandstones derived from the erosion of the Patos Formation.

With the highest known locally found rare earths grades, and hosted in ionic clays, the Capacete Formation has been widely identified and mapped in our mineral rights of the Alto Paranaíba Project. Initial surface and drilling samples show zones of high grades for rare earths and titanium and geological mapping has shown high volume potential for such mineralization. In addition, these mineral rights are located near to or adjacent to Resouro Strategic Minerals Inc. ("Resouro") and/or Equinox Resources Limited ("Equinox"), both of which are listed companies that have publicly disclosed the presence of significant concentrations of rare earths and titanium in their projects.

The project comprises a total of 22 mineral rights (15 owned mineral rights and 7 optionable mineral rights), totaling approximately 27,000 hectares and located near the cities of Patos de Minas (population: 159,235, according to a 2022 census), Carmo do Paranaíba (population: 29,011 according to a 2022 census) and Tiros (population: 6,424, according to a 2020 estimate).

![](image_006.jpg)

Figure 2 – Location of the Alto do Paranaíba Project.

The Alto Paranaíba Project is composed of the 15 mineral rights listed below plus an additional seven mineral rights which will be available if the Option (as defined elsewhere) is exercised, resulting in 22 mineral rights. For additional information about the Option, see "*Related Party Transactions.*"

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Project | Mineral Right Number | Area (size in hectares) | Mineral | Municipality | State, Country |
| Alto Paranaíba Project | 832.704/2024 | 1162.97 | Rare Earths, Titanium | Presidente Olegário | Minas Gerais, Brazil |
| Alto Paranaíba Project | 832.703/2024 | 1603.72 | Rare Earths, Titanium | Presidente Olegário | Minas Gerais, Brazil |
| Alto Paranaíba Project | 832.702/2024 | 1612.16 | Rare Earths, Titanium | Presidente Olegário | Minas Gerais, Brazil |
| Alto Paranaíba Project | 832.701/2024 | 1999.55 | Rare Earths, Titanium | Lagoa Formosa, Patos de Minas | Minas Gerais, Brazil |
| Alto Paranaíba Project | 832.699/2024 | 1653.78 | Rare Earths, Titanium | Carmo do Paranaíba | Minas Gerais, Brazil |
| Alto Paranaíba Project | 832.698/2024 | 1913.83 | Rare Earths, Titanium | Carmo do Paranaíba | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.645/2024 | 1948.54 | Rare Earths, Titanium | Lagoa Formosa | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.644/2024 | 376.67 | Rare Earths, Titanium | Patos de Minas | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.643/2024 | 139.51 | Rare Earths, Titanium | Patos de Minas | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.451/2024 | 1675.27 | Rare Earths, Titanium | Tiros | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.350/2024 | 346.43 | Rare Earths, Titanium | Tiros | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.074/2024 | 1375.93 | Rare Earths, Titanium | Tiros | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.073/2024 | 1368.01 | Rare Earths, Titanium | Tiros | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.268/2021 | 1725.49 | Rare Earths, Titanium | Tiros | Minas Gerais, Brazil |
| Alto Paranaíba Project | 831.279/2019 | 31.62 | Rare Earths, Titanium | Tiros | Minas Gerais, Brazil |

---

The following is a description of our material rare earth and titanium mineral rights that are the principal focus of our development efforts as of the date of this prospectus. Other rare earth and titanium mineral rights owned by the Company or subject to acquisition upon exercise of the Option set forth in the table above may have material value as the Company's business develops and economic conditions justify their further development and extraction. A further description of the Company's immaterial rare earth and titanium mineral rights, including maps showing the locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

*<u>Mineral Right 832.704/2024</u>*

Current Status: Exploration Permit, valid until January 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the expiration date. Exploration activities have included geological mapping and surface sampling; 75 surface samples were collected which confirmed mineralization for both rare earths and titanium.

Mata da Corda Formation was mapped in 623 hectares, with a mean thickness of 80 meters. The surface samples collected along this group show results achieving a grade of 6759 ppm TREO, 2192 ppm MREO, and 12% TiO2 (SPJ-000069), in addition to 55 samples with 1500 ppm < TREO < 6759 ppm in different locations of the area indicating mineralization potential throughout the entire group.

![](formdrsa_002.jpg)

Figure 3 - Mineral Right 832.704/2024 - Geological and sample map.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | Y | NAT_RL | Lithology |
| APPPA00267 | 832.704/2024 | 363745 | 7955580 | 969 |  |
| SPJ-000047 | 832.704/2024 | 363879 | 7955516 | 994 | CON |
| SPJ-000057 | 832.704/2024 | 365801 | 7954773 | 979 | CON |
| SPJ-000059 | 832.704/2024 | 365757 | 7954812 | 974 | CON |
| SPJ-000064 | 832.704/2024 | 366363 | 7954706 | 982 | KAM |
| SPJ-000068 | 832.704/2024 | 366339 | 7954715 | 982 | KAM |
| SPJ-000069 | 832.704/2024 | 366321 | 7954762 | 1005 | KAM |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| APPPA00267 | 226 | 4540 | 1198 | 4766 | 17.9 |
| SPJ-000047 | 171 | 4181 | 1129 | 4352 | 13.4 |
| SPJ-000057 | 391 | 4147 | 1451 | 4538 | 13.2 |
| SPJ-000059 | 302 | 4416 | 1226 | 4717 | 14.5 |
| SPJ-000064 | 237 | 4505 | 1248 | 4742 | 12.5 |
| SPJ-000068 | 347 | 4439 | 1421 | 4786 | 5.8 |
| SPJ-000069 | 558 | 6201 | 2192 | 6759 | 12.0 |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| APPPA00267 | Located on the top of a conical hill with a diameter of 8.0 meters and a height of 6.0 meters, with volcanic rock at the base and, at the top, red soil and saprolite of a sandstone, likely a sandstone cap. The material is purplish with yellow veins. |
| SPJ-000047 | Matrix supported conglomerate, with brownish matrix, and clast composed of different volcanic rocks. |
| SPJ-000057 | Matrix supported conglomerate with red matrix and clasts composed of different volcanic rocks. |
| SPJ-000059 | Clast supported conglomerate with clasts composed of green volcanic rock and reddish matrix composed of mud. Very weathered. |
| SPJ-000064 | Volcanic green rock. strongly weathered. |
| SPJ-000068 | Volcanic green rock. strongly weathered. |
| SPJ-000069 | Reddish and weathered volcanic rock. |

---

Table [ ] – Mineral Right 832.704/2024 - Surface samples details. KAM: Kamafugite; CON: Conglomerate.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*Mineral Right 832.703/2024* 

Current Status: Exploration Permit, valid until January 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the expiration date.

Exploration activities have included geological mapping, surface sampling, and auger drilling; 98 surface samples were collected; 3 auger drillholes, totaling 30.5 meters, resulted in 31 drillhole samples. Such sampling confirmed mineralization for rare earths and titanium.

Mata da Corda Formation was mapped in 1147 hectares, with a mean thickness of 70 meters. The surface samples collected along this group show results achieving a grade of 6405 ppm TREO, 1643 ppm MREO, and 19% TiO2 (SPJ-000008), in addition to 49 samples with 1500 ppm < TREO < 6405 ppm in different locations and elevations of the area indicating mineralization potential throughout the entire area.

![](formdrsa_003.jpg)

Figure 4 - Mineral Right 832.703/2024 - Geological and sample map.

![](formdrsa_004.jpg)

Figure 5 - Mineral Right 832.703/2024 - Stratigraphic sections.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | Y | NAT_RL | Lithology |
| APPPA00281 | 832.703/2024 | 354888 | 7958460 | 1011 | CON |
| APPPA00282 | 832.703/2024 | 355035 | 7958553 | 993 | KAM |
| APPPA00293 | 832.703/2024 | 356058 | 7959455 | 978 | KAM |
| APPPA00300 | 832.703/2024 | 356298 | 7960004 | 961 | RCO |
| APPPA00302 | 832.703/2024 | 356342 | 7960192 | 949 | CON |
| APPPA00324 | 832.703/2024 | 357507 | 7960430 | 985 | KAM |
| APPPA00325 | 832.703/2024 | 357525 | 7960553 | 964 | KAM |
| APPPA00331 | 832.703/2024 | 358408 | 7960957 | 978 | KAM |
| APPPA00334 | 832.703/2024 | 358164 | 7960914 | 968 | KAM |
| SPJ-000008 | 832.703/2024 | 358396 | 7960916 | 988 | KAM |
| SPJ-000014 | 832.703/2024 | 357539 | 7960422 | 989 | KAM |
| SPJ-000025 | 832.703/2024 | 355112 | 7958533 | 1005 | KAM |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| APPPA00281 | 218 | 3344 | 871 | 3562 | 10.9 |
| APPPA00282 | 390 | 2542 | 737 | 2932 | 8.5 |
| APPPA00293 | 467 | 2724 | 740 | 3191 | 11.3 |
| APPPA00300 | 229 | 2796 | 736 | 3025 | 11.3 |
| APPPA00302 | 257 | 2123 | 574 | 2381 | 9.7 |
| APPPA00324 | 1199 | 2250 | 654 | 3449 | 9.8 |
| APPPA00325 | 269 | 3214 | 952 | 3483 | 10.1 |
| APPPA00331 | 730 | 2804 | 730 | 3534 | 10.8 |
| APPPA00334 | 192 | 3035 | 787 | 3227 | 8.3 |
| SPJ-000008 | 425 | 5980 | 1643 | 6405 | 18.6 |
| SPJ-000014 | 358 | 4037 | 1162 | 4395 | 9.4 |
| SPJ-000025 | 318 | 4161 | 1116 | 4479 | 11.7 |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| APPPA00281 | 218 | 3344 | 871 | 3562 | 10.9 |
| APPPA00282 | 390 | 2542 | 737 | 2932 | 8.5 |
| APPPA00293 | 467 | 2724 | 740 | 3191 | 11.3 |
| APPPA00300 | 229 | 2796 | 736 | 3025 | 11.3 |
| APPPA00302 | 257 | 2123 | 574 | 2381 | 9.7 |
| APPPA00324 | 1199 | 2250 | 654 | 3449 | 9.8 |
| APPPA00325 | 269 | 3214 | 952 | 3483 | 10.1 |
| APPPA00331 | 730 | 2804 | 730 | 3534 | 10.8 |
| APPPA00334 | 192 | 3035 | 787 | 3227 | 8.3 |
| SPJ-000008 | 425 | 5980 | 1643 | 6405 | 18.6 |
| SPJ-000014 | 358 | 4037 | 1162 | 4395 | 9.4 |
| SPJ-000025 | 318 | 4161 | 1116 | 4479 | 11.7 |

---

Table [ ] – Mineral Right 832.703/2024 – Surface samples details. RCO: Recent Cover; KAM: Kamafugite; CON: Conglomerate.

Auger drilling samples intercepted 30.5 meters of Mata da Corda group, with volcanic and volcanoclastic rocks intervals. With grades 1100 ppm < TREO < 4078 ppm and 6.3% < TiO2 < 15.5% occurring in all lithologies of the group. The chemical results indicate that mineralization is near the surface and occurs with a minimum thickness of 10 meters at different edges and elevations of the area, also suggesting the lateral continuity of mineralization within the Mata da Corda group. The 31 drillholes samples results in 831703/2024 have an average of 2314 ppm TREO, 522 ppm MREO and 11% TiO2 (Table 8 and 9). Among the highlights of the grades are the intervals:

● DHPM-00003, FROM: 4.00 m TO: 4.50 m, PM-00034: 4078 ppm TREO, 939 ppm MREO and 14.7% TiO2.

● DHPM-00003, FROM: 3.00m TO: 4.00m, PM-00032: 3844 ppm TREO, 900 ppm MREO and 14.3% TiO2.

● DHPM-00002, FROM: 8.00m TO: 9.00m, PM-00026: 3189 ppm TREO, 731 ppm MREO and 15.5% TiO2.

![](formdrsa_005.jpg)

Figure 6 – Mineral Right 832.703/2024 – Auger drillhole DHPM-00001 section and TREO and MREO grades.

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| HOLE_ID | MINERAL RIGHT | SAMPLE_ID | FROM | TO | LENGTH | LITH | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| DHPM-00001 | 831703/2024 | PM-00002 | 0.00 | 1.00 | 1.00 | CGA | 157 | 2471 | 604 | 2628 | 10 |
| DHPM-00001 | 831703/2024 | PM-00003 | 1.00 | 2.00 | 1.00 | CON | 184 | 2125 | 522 | 2310 | 9.7 |
| DHPM-00001 | 831703/2024 | PM-00004 | 2.00 | 3.00 | 1.00 | CON | 188 | 2039 | 503 | 2227 | 9.9 |
| DHPM-00001 | 831703/2024 | PM-00005 | 3.00 | 4.00 | 1.00 | CON | 220 | 2261 | 504 | 2482 | 10.4 |
| DHPM-00001 | 831703/2024 | PM-00007 | 4.00 | 5.00 | 1.00 | CON | 135 | 1144 | 281 | 1279 | 8.2 |
| DHPM-00001 | 831703/2024 | PM-00008 | 5.00 | 6.00 | 1.00 | CON | 125 | 1174 | 280 | 1300 | 8.1 |
| DHPM-00001 | 831703/2024 | PM-00009 | 6.00 | 7.00 | 1.00 | CON | 117 | 1202 | 287 | 1319 | 8.5 |
| DHPM-00001 | 831703/2024 | PM-00010 | 7.00 | 8.00 | 1.00 | CON | 119 | 1281 | 314 | 1400 | 8.3 |
| DHPM-00001 | 831703/2024 | PM-00011 | 8.00 | 9.00 | 1.00 | CON | 119 | 1437 | 356 | 1555 | 9 |
| DHPM-00001 | 831703/2024 | PM-00013 | 9.00 | 10.00 | 1.00 | CON | 116 | 1570 | 371 | 1687 | 10 |
| DHPM-00001 | 831703/2024 | PM-00014 | 10.00 | 10.50 | 0.50 | CON | 98 | 1080 | 267 | 1179 | 9.5 |
| DHPM-00002 | 831703/2024 | PM-00016 | 0.00 | 1.00 | 1.00 | CGA | 109 | 1730 | 474 | 1838 | 7.9 |
| DHPM-00002 | 831703/2024 | PM-00017 | 1.00 | 2.00 | 1.00 | CON | 172 | 2511 | 666 | 2683 | 11.4 |
| DHPM-00002 | 831703/2024 | PM-00018 | 2.00 | 3.00 | 1.00 | KAM | 198 | 2448 | 628 | 2646 | 12.5 |
| DHPM-00002 | 831703/2024 | PM-00019 | 3.00 | 4.00 | 1.00 | KAM | 258 | 2259 | 567 | 2517 | 13.1 |
| DHPM-00002 | 831703/2024 | PM-00021 | 4.00 | 5.00 | 1.00 | KAM | 244 | 2700 | 699 | 2944 | 13.3 |
| DHPM-00002 | 831703/2024 | PM-00022 | 5.00 | 6.00 | 1.00 | KAM | 231 | 2316 | 579 | 2547 | 12.9 |
| DHPM-00002 | 831703/2024 | PM-00023 | 6.00 | 7.00 | 1.00 | KAM | 367 | 3049 | 755 | 3415 | 13.3 |
| DHPM-00002 | 831703/2024 | PM-00025 | 7.00 | 8.00 | 1.00 | KAM | 231 | 2383 | 567 | 2615 | 13.7 |
| DHPM-00002 | 831703/2024 | PM-00026 | 8.00 | 9.00 | 1.00 | KAM | 239 | 2949 | 731 | 3189 | 15.5 |
| DHPM-00002 | 831703/2024 | PM-00027 | 9.00 | 10.00 | 1.00 | KAM | 237 | 3097 | 758 | 3334 | 15.4 |
| DHPM-00003 | 831703/2024 | PM-00029 | 0.00 | 1.00 | 1.00 | CON | 80 | 1221 | 282 | 1301 | 6.3 |
| DHPM-00003 | 831703/2024 | PM-00030 | 1.00 | 2.00 | 1.00 | CON | 102 | 2082 | 472 | 2185 | 11.8 |
| DHPM-00003 | 831703/2024 | PM-00031 | 2.00 | 3.00 | 1.00 | SHL | 167 | 3336 | 799 | 3503 | 13.6 |
| DHPM-00003 | 831703/2024 | PM-00032 | 3.00 | 4.00 | 1.00 | SHL | 182 | 3662 | 900 | 3844 | 14.3 |
| DHPM-00003 | 831703/2024 | PM-00034 | 4.00 | 4.50 | 0.50 | SHL | 226 | 3852 | 939 | 4078 | 14.7 |
| DHPM-00003 | 831703/2024 | PM-00035 | 4.50 | 6.00 | 1.50 | KAM | 132 | 1904 | 468 | 2036 | 10.6 |
| DHPM-00003 | 831703/2024 | PM-00036 | 6.00 | 7.00 | 1.00 | KAM | 122 | 1998 | 466 | 2120 | 10 |
| DHPM-00003 | 831703/2024 | PM-00037 | 7.00 | 8.00 | 1.00 | KAM | 117 | 1775 | 400 | 1892 | 9.4 |
| DHPM-00003 | 831703/2024 | PM-00038 | 8.00 | 9.00 | 1.00 | KAM | 105 | 1841 | 410 | 1945 | 9.7 |
| DHPM-00003 | 831703/2024 | PM-00040 | 9.00 | 10.00 | 1.00 | KAM | 111 | 1616 | 336 | 1727 | 9.9 |

---

Table [] - Mineral Right 832.703/2024 – Auger drillhole sample; CON: CONGLOMERATE, KAM: KAMAFUGITE/VOLCANIC, CGA: LATERITIC SOIL, SHL: SHALE.

---

| | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|
|  | MINERAL RIGHT | BLOCK | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| **AVERAGE** | 831703/2024 | 2 | 168 | 2146 | 522 | 2314 | 11.0 |

---

Table [ ] - Mineral Right 832.703/2024 – Average grade of auger drillhole samples per oxides.

---

| | | | | | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) |
|  | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | | | | | | | | | | | |
|  | Nd | Pr | Dy | Tb | Ce | La | Sm | Er | Eu | Gd | Ho | Lu | Tm | Y | Yb |
| AVERAGE | 329 | 95 | 18 | 4 | 881 | 478 | 48 | 6 | 12 | 31 | 3 | 0 | 1 | 62 | 3 |

---

Table [ ] – Mineral Right 832.703/2024 - Average grade of auger drillhole samples per element.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 832.702/2024</u>*

Current Status: Exploration Permit, valid until January 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the expiration date. Exploration activities have included geological mapping and surface sampling; 30 surface samples were collected which confirmed mineralization for both rare earths and titanium.

Mata da Corda Formation was mapped in 283 hectares, with a mean thickness of 70 meters. The surface samples collected along this group show results achieving a grade of 4587 ppm TREO, 1191 ppm MREO, and 9% TiO2 (SPJ-000052), in addition to 17 samples with 1500 ppm < TREO < 4587 ppm in different locations of the area indicating mineralization potential throughout the entire group. Although it does not cover a large area, the Mata da Corda group of this mineral right is a continuation of mineral right 832.703/2024, which is the western boundary.

![](formdrsa_006.jpg)

Figure 7 – Mineral Right 832.702/2024 – Geological and sample map.

![](formdrsa_007.jpg)

Figure 8 – Mineral Right 832.702/2024 – Stratigraphic sections.

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | X | Y | NAT_RL | Lithology |
| SPJ-000002 | 832.702/2024 |  | 359205 | 7959062 | 985 | KAM |
| SPJ-000052 | 832.702/2024 |  | 358742 | 7956695 | 1020 | KAM |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| SPJ-000002 | 282 | 2393 | 619 | 2674 | 8.5 |
| SPJ-000052 | 288 | 4299 | 1191 | 4587 | 9.1 |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| SPJ-000002 | Volcanic rock, very weathered, some boulders looks like conglomerate. Water fountain. |
| SPJ-000052 | Volcanic rock with green matrix, vesiculae with with clay and little brown minerals. |

---

Table [ ] – Mineral Right 832.702/2024 - Surface samples details. KAM: Kamafugite.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 832.701/2024</u>*

Current Status: Exploration Permit, valid until January 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date. Exploration activities have included geological mapping and surface sampling; 113 surface samples were collected which confirmed mineralization for both rare earths and titanium.

Mata da Corda Formation was mapped in 699 hectares, with a mean thickness of 110 meters. The surface samples collected in this group show results achieving a grade of 7091 ppm TREO, 2023 ppm MREO and 12% TiO2 (SPJ-00086), in addition to 53 samples with 1500 ppm < TREO < 7091 ppm in different locations of the area indicating mineralization potential throughout the entire group. Of the 113 surface samples, 18 are pending results.

![](formdrsa_008.jpg)

Figure 9 – Mineral Right 832.701/2024 – Geological and sample map.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | Y | NAT_RL | Lithology |
| APPPA00198 | 832.701/2024 | 371610 | 7932303 | 959 | RCO |
| APPPA00204 | 832.701/2024 | 371097 | 7932850 | 1045 | RCO |
| APPPA00235 | 832.701/2024 | 373183 | 7930761 | 984 | KAM |
| APPPA00243 | 832.701/2024 | 369862 | 7929790 | 988 | KAM |
| APPPA00244 | 832.701/2024 | 370038 | 7929834 | 978 | KAM |
| SPJ-00086 | 832.701/2024 | 371080 | 7932856 | 1045 | CON |
| SPJ-00101 | 832.701/2024 | 371617 | 7931923 | 882 | RCO |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| APPPA00198 | 206 | 2812 | 706 | 3018 | 13.4 |
| APPPA00204 | 256 | 4513 | 1304 | 4770 | 13.1 |
| APPPA00235 | 249 | 2902 | 750 | 3151 | 12.4 |
| APPPA00243 | 234 | 3296 | 881 | 3530 | 8.6 |
| APPPA00244 | 230 | 3369 | 890 | 3598 | 15.7 |
| SPJ-00086 | 283 | 6808 | 2023 | 7091 | 11.9 |
| SPJ-00101 | 223 | 2798 | 684 | 3021 | 13.4 |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| APPPA00198 | Located on an upper slope, a road cut 0.80 meters high exposes a reddish-brown, gravelly soil. |
| APPPA00204 | At the same location, a sample was collected from a very fine, earthy material deposited at the base of the road cut |
| APPPA00235 | Located on a steep slope. Point near the 'contact' with the volcanic rock underlying the red soil. To the south, we are ascending the topography and encountering red soil towards the summit. To the east and west, approximately 50 meters away, volcanic outcrops are visible. At the point, there is strong red soil with some gravel |
| APPPA00243 | Located on a steep slope. Hilltop with reddish-brown soil, gravel, and conglomerate pebbles. This hill is surrounded by occurrences of volcanic rock. This situation was observed in other locations. |
| APPPA00244 | Located on the hilltop, with volcanic rock at the base and yellowish, gravelly soil with conglomerate pebbles at the summit. Only the final 6-8 meters of the hilltop are of red soil. Yellowish saprolite resembling the Capacete Formation was observed |
| SPJ-00086 | Clast supported conglomerate with clasts up to 4cm of volcanic rocks and whitish rocks. Matrix composed of green mud |
| SPJ-00101 | Soil composed of reddish clay and some lateritic pebbles |

---

Table [ ] – Mineral Right 832.701/2024 - Surface samples details. RCO: Recent Cover; KAM: Kamafugite; CON: Conglomerate.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 832.699/2024</u>*

Current Status: Exploration Permit, valid until January 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Exploration activities have included geological mapping, surface sampling, and auger drilling. It has 92 surface samples, 3 auger drillholes, comprising 31.8 meters, and 31 drillhole samples.

Mata da Corda Formation was identified through geological mapping in 1,463 hectares, with a mean thickness of 115 meters. The surface samples collected along this group show results achieving a maximum grade of 5893 ppm TREO, 1700 ppm MREO and 15% TiO2, in addition to 62 samples with 1500 ppm < TREO < 5983 ppm in different locations of the area indicating mineralization potential throughout the entire group.

![](formdrsa_009.jpg)

Figure 10 – Mineral Right 832.699/2024 – geological and sample map.

![](formdrsa_010.jpg)

Figure 11 – Mineral Right 832.699/2024 – Stratigraphic sections.

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | X | Y | NAT_RL | Lithology |
| APPPA00127 | 832.699/2024 |  | 371305 | 7903410 | 1043 | KAM |
| APPPA00152 | 832.699/2024 |  | 369190 | 7903436 | 1054 | KAM |
| SCAG-000011 | 832.699/2024 |  | 370578 | 7900710 | 974 | CON |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| APPPA00127 | 1380 | 2646 | 784 | 4026 | 11.1 |
| APPPA00152 | 647 | 5337 | 1700 | 5984 | 14.8 |
| SCAG-000011 | 307 | 3984 | 1247 | 4291 | 13.4 |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| APPPA00127 | Located on a mid-slope, the site shows initial signs of erosion. An outcrop of highly weathered volcanic bedrock, almost a saprolite, was observed. Above this, a 2.5 meter thick brownish soil layer is present. A sample was taken from the saprolite. |
| APPPA00152 | Located in a 7 meter high erosion scarp on a steep slope. Purplish saprolite with whitish and yellowish streaks, exhibiting a capacete formation structure. |
| SCAG-000011 | Well preserved outcrop of Capacete Formation. Reddish color and lots of magnetic clasts. |

---

Table [ ] – Mineral Right 832.699/2024 – Surface samples details.

The auger drilling samples intercepted 31.8 meters of Mata da Corda Formation, with volcanic rock and conglomerate intervals. The results indicate that mineralization is near the surface and occurs with a minimum thickness of 10 meters at different edges and elevations of the area, also suggesting the lateral continuity of the mineralization within the Mata da Corda Formation. In addition, grades > 1500 ppm TREO and 5.8% < TiO2 < 21.2% occur in both lithologies of the group, conglomerate and volcanic rocks. The 31 drillholes samples results have an average of 3157 ppm TREO, 760 ppm MREO and 12.7% TiO2. In particular, the following results were obtained:

● DHCA-00001, FROM: 6.00 m TO: 7.00 m, CA-00009: 5529 ppm TREO, 1154 ppm MREO and 13.8% TiO2.

● DHCA-00001, FROM: 7.00m TO: 8.00m, CA-00011: 5199 ppm TREO, 1205 ppm MREO and 14.1% TiO2.

● DHCA-00002, FROM: 7.00m TO: 7.63m, CA-00023: 4580 ppm TREO, 1077 ppm MREO and 21.2% TiO2.

![](formdrsa_011.jpg)

Figure 12 – Mineral Right 832.699/2024 – Sections of auger drilling with TREO and MREO grades.

---

| | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| HOLE_ID | SAMPLE_ID | FROM | TO | LENGTH | LITH | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| DHCA-00001 | CA-00002 | 0.00 | 1.00 | 1.00 | CGA | 111 | 1918 | 482 | 2029 | 9.4 |
| DHCA-00001 | CA-00003 | 1.00 | 2.00 | 1.00 | KAM | 91 | 1641 | 428 | 1732 | 5.8 |
| DHCA-00001 | CA-00004 | 2.00 | 3.00 | 1.00 | KAM | 182 | 3095 | 829 | 3277 | 12.1 |
| DHCA-00001 | CA-00005 | 3.00 | 4.00 | 1.00 | KAM | 244 | 4254 | 1217 | 4498 | 12.2 |
| DHCA-00001 | CA-00007 | 4.00 | 5.00 | 1.00 | KAM | 221 | 3315 | 940 | 3536 | 14.4 |
| DHCA-00001 | CA-00008 | 5.00 | 6.00 | 1.00 | KAM | 130 | 1723 | 465 | 1853 | 15.2 |
| DHCA-00001 | CA-00009 | 6.00 | 7.00 | 1.00 | KAM | 379 | 5150 | 1154 | 5529 | 13.8 |
| DHCA-00001 | CA-00011 | 7.00 | 8.00 | 1.00 | KAM | 364 | 4835 | 1205 | 5199 | 14.1 |
| DHCA-00001 | CA-00012 | 8.00 | 9.00 | 1.00 | KAM | 326 | 3256 | 892 | 3582 | 15.9 |
| DHCA-00001 | CA-00013 | 9.00 | 10.30 | 1.30 | KAM | 461 | 4053 | 1244 | 4514 | 16.5 |
| DHCA-00002 | CA-00015 | 0.00 | 1.00 | 1.00 | CGA | 179 | 2337 | 585 | 2516 | 11.4 |
| DHCA-00002 | CA-00016 | 1.00 | 2.00 | 1.00 | CON | 229 | 2760 | 696 | 2989 | 13.6 |
| DHCA-00002 | CA-00018 | 2.00 | 3.00 | 1.00 | CON | 186 | 2521 | 614 | 2708 | 12.9 |
| DHCA-00002 | CA-00019 | 3.00 | 3.92 | 0.92 | CON | 187 | 2911 | 741 | 3098 | 13.9 |
| DHCA-00002 | CA-00020 | 3.92 | 5.00 | 1.08 | CON | 219 | 3532 | 957 | 3750 | 14.6 |
| DHCA-00002 | CA-00021 | 5.00 | 6.00 | 1.00 | CON | 199 | 3076 | 800 | 3275 | 15.7 |
| DHCA-00002 | CA-00022 | 6.00 | 7.00 | 1.00 | CON | 176 | 2791 | 685 | 2967 | 15.8 |
| DHCA-00002 | CA-00023 | 7.00 | 7.63 | 0.63 | CON | 252 | 4328 | 1077 | 4580 | 21.2 |
| DHCA-00002 | CA-00024 | 7.63 | 9.00 | 1.37 | KAM | 232 | 3179 | 790 | 3411 | 15.4 |
| DHCA-00002 | CA-00026 | 9.00 | 10.00 | 1.00 | KAM | 194 | 2817 | 700 | 3010 | 15.1 |
| DHCA-00002 | CA-00027 | 10.00 | 11.50 | 1.50 | KAM | 168 | 2412 | 586 | 2580 | 12 |
| DHCA-00003 | CA-00029 | 0.00 | 1.00 | 1.00 | KAM | 91 | 1453 | 368 | 1544 | 8.4 |
| DHCA-00003 | CA-00030 | 1.00 | 2.00 | 1.00 | KAM | 115 | 1701 | 432 | 1817 | 10.4 |
| DHCA-00003 | CA-00032 | 2.00 | 3.00 | 1.00 | KAM | 110 | 2038 | 474 | 2148 | 11.3 |
| DHCA-00003 | CA-00033 | 3.00 | 4.00 | 1.00 | KAM | 188 | 3374 | 859 | 3562 | 12.1 |
| DHCA-00003 | CA-00034 | 4.00 | 5.00 | 1.00 | KAM | 246 | 4070 | 1053 | 4316 | 12.2 |
| DHCA-00003 | CA-00035 | 5.00 | 6.00 | 1.00 | CON | 200 | 3286 | 826 | 3486 | 11 |
| DHCA-00003 | CA-00036 | 6.00 | 7.00 | 1.00 | CON | 260 | 4117 | 1089 | 4377 | 11.4 |
| DHCA-00003 | CA-00037 | 7.00 | 8.00 | 1.00 | CON | 140 | 2350 | 572 | 2489 | 9.3 |
| DHCA-00003 | CA-00038 | 8.00 | 9.00 | 1.00 | CON | 109 | 1394 | 329 | 1503 | 8.5 |
| DHCA-00003 | CA-00039 | 9.00 | 10.00 | 1.00 | CON | 157 | 1839 | 463 | 1997 | 8.1 |

---

Table [ ] – Mineral Right 832.699/2024 – Auger drillhole sample of permit 832699/2024. CON: CONGLOMERATE, KAM: KAMAFUGITE/VOLCANIC, CGA: LATERITIC SOIL.

---

| | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|
|  | MINERAL RIGHT | BLOCK | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| **AVERAGE** | 832699/2024 | 1 | 205 | 2952 | 760 | 3157 | 12.7 |

---

Table [ ] - Mineral Right 832.699/2024 – Average grade of auger drillhole samples per oxides.

---

| | | | | | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) |
|  | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | | | | | | | | | | | |
|  | Nd | Pr | Dy | Tb | Ce | La | Sm | Er | Eu | Gd | Ho | Lu | Tm | Y | Yb |
| AVERAGE | 489 | 130 | 23 | 5 | 1241 | 589 | 69 | 7 | 17 | 43 | 3 | 0 | 1 | 68 | 4 |

---

Table [ ] – Mineral Right 832.699/2024 – Average grade of auger drillhole samples per rare earths element.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 832.698/2024</u>*

Current Status: Exploration Permit, valid until May 12, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date. Exploration activities have included geological mapping and surface sampling; 150 surface samples were collected which confirmed mineralization for both rare earths and titanium.

Mata da Corda Formation was mapped in 794 hectares, with a mean thickness of 110 meters. The surface samples collected in the Formation include results such as 4647 ppm TREO, 1246 ppm MREO and 17% TiO2 (APPPA00111), in addition to 80 samples with 1500 ppm < TREO < 4647 ppm in different locations and elevations of the area indicating mineralization potential throughout the area.

![](formdrsa_012.jpg)

Figure 13 – Mineral Right 832.698/2024 – Geological and sample map.

![](formdrsa_013.jpg)

Figure 14 – Mineral Right 832.698/2024 - Stratigraphic sections.

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | X | Y | NAT_RL | Lithology |
| APPPA00014 | 832.698/2024 |  | 372919 | 7907352 | 1068 | RCO |
| APPPA00111 | 832.698/2024 |  | 374443 | 7906937 | 1070 | KAM |
| PCP-000012 | 832.698/2024 |  | 373872 | 7907431 | 1015 | KAM |
| SCP000034 | 832.698/2024 |  | 371362 | 7908698 | 942 | CON |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| APPPA00014 | 146 | 4446 | 938 | 4592 | 9.1 |
| APPPA00111 | 361 | 4287 | 1246 | 4648 | 17.4 |
| PCP-000012 | 2116 | 1938 | 656 | 4055 | 4.6 |
| SCP000034 | 1134 | 2908 | 817 | 4043 | 8.5 |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| APPPA00014 | Sampled adjacent to APPPA00013. The soil is a reddish, gravelly material overlying saprolite. The soil layer is 2.5 meters thick, and the saprolite is 3.0 meters thick. |
| APPPA00111 | Located in the southeastern portion of a previously sampled hill. Roadside cut approximately 2.0 meters high, exhibiting a matrix with a purplish color and whitish to yellowish clasts. |
| PCP-000012 | Weathering profile with intense alteration. At the base there is tuffitic rock with beige matrix, angulose clasts of oxidized kamafugite, above the breccia is the kamafugite. there are veins of green material. There is silica cementation with clasts of kamafugite in the base, appearing to be a volcanic breccia. |
| SCP000034 | Capacete conglomerate with matrix composed by sand and well-rounded clasts of pebbles and boulders of volcanic rocks. Its possible to see the contact with Areado Group below. SCP - 00034 (non-caulinized clasts). |

---

Table 1 – Mineral Right 832.698/2024 – Surface samples details. RCO: Recent Cover; KAM: Kamafugite; CON: Conglomerate.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 831.645/2024</u>*

Current Status: Exploration Permit, valid until November 6, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date. Exploration activities have included geological mapping, surface sampling, and auger drilling have been executed; 6 surface samples and 14 drillhole samples from two exploratory auger drill holes were collected. Such sampling confirmed mineralization for rare earths and titanium.

Mata da Corda Formation was mapped in 1004 hectares, with a mean thickness of 55 meters. The surface samples collected along this group show results achieving a grade of 1097 ppm TREO, 119 ppm MREO, and 12% TiO2 (SFJ-00004), in addition, none of the surface samples show results above 1500 ppm. Despite this, the occurrence of the Mata da Corda group is confirmed by two drillholes.

![](formdrsa_014.jpg)

Figure 15 – Mineral Right 831.645/2024 – Geological and sample map.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | Y | NAT_RL | Lithology |
| SFJ-00004 | 831.645/2024 | 353173 | 7925079 | 929 | RCO |
| SFJ-00005 | 831.645/2024 | 348545 | 7927352 | 920 | RCO |
| SFJ-00001 | 831.645/2024 | 354315 | 7925571 | 874 | RCO |
| SFJ-00006 | 831.645/2024 | 348941 | 7927549 | 933 | RCO |
| SFJ-00002 | 831.645/2024 | 354315 | 7925571 | 874 | RCO |
| SFJ-00003 | 831.645/2024 | 354396 | 7925574 | 865 | SILT |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| SFJ-00004 | 57772 | 1038948 | 119334 | 1096720 | 11550 |
| SFJ-00005 | 70330 | 981303 | 174861 | 1051633 | 8856 |
| SFJ-00001 | 73681 | 687265 | 117111 | 760946 | 6153 |
| SFJ-00006 | 75225 | 587260 | 112134 | 662485 | 5599 |
| SFJ-00002 | 88308 | 502046 | 134875 | 590354 | 3301 |
| SFJ-00003 | 39767 | 546197 | 81554 | 585964 | 5999 |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| SFJ-00004 | Reddish soil with clay granulometry |
| SFJ-00005 | Reddish soil with clay-sized particles and some clasts of lateritic duricrust |
| SFJ-00001 | Reddish soil with clay-sized particles and some clasts of lateritic duricrust |
| SFJ-00006 | Reddish soil with clay-sized particles and some clasts of lateritic duricrust |
| SFJ-00002 | Reddish soil with clay-sized particles and some clasts of lateritic duricrust |
| SFJ-00003 | Whitish to reddish siltstone |

---

Table [ ] – Mineral Right 831.645/2024 – Surface samples details. RCO: Recent Cover; SILT: Siltstone.

Auger Drilling performed in 2 drillholes, 10 meters each. The DHLF-00001 hit Mata da Corda group in all intervals, while the DHLF-00002 hit Mata da Corda group in the first 2 meters and Areado group in the last 8 meters. In total, the drillhole samples intercepted 12 meters of Mata da Corda group, with volcanic rock and conglomerate intervals, and 2 meters of soil in each drillhole. The results of the Auger drilling samples indicate that mineralization is near the surface and occurs with a minimum thickness of 10 meters. In addition, grades 509 ppm < TREO < 3595 ppm and 1.7% < TiO2 < 15.8% occurs in soils, conglomerate, volcanic rock and shale of Areado group. The low TREO and TiO2 values correspond to samples from the Areado group. The 14 drillhole samples results in 831645/2024 have an average of 2309 ppm TREO, 539 ppm MREO and 9.2% TiO2 (table 14 and 15). Among the highlights of the grades are the intervals:

DHLF-00001, FROM: 6.00 m TO: 7.00 m, LF-00009: 3595 ppm TREO, 830 ppm MREO and 14.8% TiO2.

DHLF-00001, FROM: 8.00 m TO: 9.00 m, LF-00011: 3213 ppm TREO, 718 ppm MREO and 15.9% TiO2.

---

| | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|
|  | MINERAL RIGHT | BLOCK | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| AVERAGE | 831645/2024 | 2 | 160 | 2149 | 539 | 2309 | 9.2 |

---

Table [ ] – Mineral Right 831.645/2024 – Average grade of auger drillhole samples per oxides.

---

| | | | | | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) | TRE - TOTAL RARE EARTH (ppm) |
|  | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | | | | | | | | | | | |
|  | Nd | Pr | Dy | Tb | Ce | La | Sm | Er | Eu | Gd | Ho | Lu | Tm | Y | Yb |
| AVERAGE | 343 | 95 | 17 | 3 | 883 | 463 | 50 | 6 | 13 | 31 | 2 | 0 | 1 | 56 | 4 |

---

Table [ ] – Mineral Right 831.645/2024 - Average grade of auger drillhole samples of permit 831645/2024 per element.

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| HOLE_ID | MINERAL RIGHT | SAMPLE_ID | FROM | TO | LENGTH | LITH | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| DHLF-00001 | 831645/2024 | LF-00002 | 0.00 | 1.00 | 1.00 | CGA | 100 | 1442 | 358 | 1542 | 5.8 |
| DHLF-00001 | 831645/2024 | LF-00003 | 1.00 | 2.00 | 1.00 | CGA | 107 | 1580 | 388 | 1687 | 6.3 |
| DHLF-00001 | 831645/2024 | LF-00004 | 2.00 | 3.00 | 1.00 | CON | 145 | 2297 | 585 | 2442 | 9.5 |
| DHLF-00001 | 831645/2024 | LF-00005 | 3.00 | 4.00 | 1.00 | CON | 215 | 2856 | 757 | 3071 | 11.4 |
| DHLF-00001 | 831645/2024 | LF-00007 | 4.00 | 5.00 | 1.00 | SHL | 237 | 2775 | 714 | 3011 | 11.6 |
| DHLF-00001 | 831645/2024 | LF-00008 | 5.00 | 6.00 | 1.00 | SHL | 215 | 3187 | 758 | 3402 | 14.1 |
| DHLF-00001 | 831645/2024 | LF-00009 | 6.00 | 7.00 | 1.00 | KAM | 193 | 3402 | 830 | 3595 | 14.8 |
| DHLF-00001 | 831645/2024 | LF-00010 | 7.00 | 8.00 | 1.00 | KAM | 186 | 3174 | 747 | 3361 | 14.9 |
| DHLF-00001 | 831645/2024 | LF-00011 | 8.00 | 9.00 | 1.00 | KAM | 170 | 3042 | 718 | 3213 | 15.9 |
| DHLF-00001 | 831645/2024 | LF-00013 | 9.00 | 10.00 | 1.00 | SHL | 209 | 1960 | 515 | 2169 | 7 |
| DHLF-00002 | 831645/2024 | LF-00015 | 0.00 | 1.00 | 1.00 | CGA | 107 | 1589 | 400 | 1696 | 6.1 |
| DHLF-00002 | 831645/2024 | LF-00016 | 1.00 | 2.00 | 1.00 | CGA | 127 | 1681 | 432 | 1808 | 6.6 |
| DHLF-00002 | 831645/2024 | LF-00017 | 2.00 | 3.00 | 1.00 | SHL | 121 | 704 | 216 | 825 | 3.4 |
| DHLF-00002 | 831645/2024 | LF-00018 | 3.00 | 4.00 | 1.00 | SHL | 108 | 401 | 122 | 509 | 1.8 |

---

Table [ ] – Mineral Right 831.645/2024 - Auger drillhole sample of permit 832699/2024. CON: CONGLOMERATE, KAM: KAMAFUGITE/VOLCANIC, CGA: LATERITIC SOIL, SHL: SHALE/SILTSTONE.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 831.644/2024</u>*

Current Status: Exploration Permit, valid until November 14, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Exploration activities have included geological mapping and surface sampling; three surface samples were collected which showed mineralization for both rare earths and titanium.

Mata da Corda Formation was mapped in 374 hectares, with an estimated maximum thickness of 190 meters, estimated by lateral correlation with next areas, for example 832701/2024. The lack of outcrops makes it difficult to determine the average thickness. Results of surface samples collected throughout this mineral right are pending.

![](formdrsa_015.jpg)

Figure 16 – Mineral Right 831.644/2024 – Geological and sample map.

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | X | Y | NAT_RL | Lithology |
| SPJ-00143 | 831.644/2024 |  | 364345 | 7940636 | 1049 | RCO |
| SPJ-00144 | 831.644/2024 |  | 363924 | 7941068 | 1084 | RCO |
| SPJ-00145 | 831.644/2024 |  | 363214 | 7941631 | 1053 | RCO |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| SPJ-00143 | Pending | Pending | Pending | Pending | Pending |
| SPJ-00144 | Pending | Pending | Pending | Pending | Pending |
| SPJ-00145 | Pending | Pending | Pending | Pending | Pending |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| SPJ-00143 | Reddish soil with clay-sized particles. |
| SPJ-00144 | Reddish soil with clay-sized particles. |
| SPJ-00145 | Well preserved outcrop of Reddish soil with clay-sized particles. |

---

Table [ ] – Mineral Right 831.644/2024 – Surface samples details. RCO: Recent Cover.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

*<u>Mineral Right 831.643/2024</u>*

Current Status: Exploration Permit, valid until November 14, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Exploration activities included geological mapping and surface sampling. 19 surface samples were collected and results are pending.

Mata da Corda Formation was mapped in 93 hectares, with an estimated maximum thickness of 80 meters. Results from surface samples collected throughout this group are pending.

![](formdrsa_016.jpg)

Figure 17 - Mineral Right 831.643/2024 - Geological and sample map.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | Mineral Right | X | Y | NAT_RL | Lithology |
| SPJ-00124 | 831643/2024 | 370202 | 7931154 | 857 | CON |
| SPJ-00125 | 831643/2024 | 352728 | 7945160 | 865 | RCO |
| SPJ-00126 | 831643/2024 | 352711 | 7945168 | 867 | CON |
| SPJ-00127 | 831643/2024 | 352902 | 7945058 | 861 | RCO |
| SPJ-00128 | 831643/2024 | 352938 | 7945068 | 864 | KAM |
| SPJ-00129 | 831643/2024 | 353017 | 7945067 | 870 | KAM |
| SPJ-00130 | 831643/2024 | 353031 | 7945075 | 868 | CON |
| SPJ-00131 | 831643/2024 | 353029 | 7945068 | 860 | CON |
| SPJ-00132 | 831643/2024 | 353119 | 7945100 | 873 | CON |
| SPJ-00133 | 831643/2024 | 353143 | 7945107 | 876 | CON |
| SPJ-00134 | 831643/2024 | 353323 | 7945140 | 881 | CON |
| SPJ-00135 | 831643/2024 | 353426 | 7945156 | 883 | RCO |
| SPJ-00136 | 831643/2024 | 352845 | 7944887 | 854 | RCO |
| SPJ-00137 | 831643/2024 | 354696 | 7945472 | 900 | CON |
| SPJ-00138 | 831643/2024 | 354690 | 7945470 | 905 | CON |
| SPJ-00139 | 831643/2024 | 354901 | 7945370 | 929 | KAM |
| SPJ-00140 | 831643/2024 | 355052 | 7945158 | 933 | RCO |
| SPJ-00141 | 831643/2024 | 353917 | 7945414 | 891 | RCO |
| SPJ-00142 | 831643/2024 | 353858 | 7945539 | 913 | RCO |

---

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Sample ID | HREO (ppm) | LREO (ppm) | MREO (ppm) | TREO (ppm) | TiO2 (%) |
| SPJ-00124 | pending | pending | pending | pending | pending |
| SPJ-00125 | pending | pending | pending | pending | pending |
| SPJ-00126 | pending | pending | pending | pending | pending |
| SPJ-00127 | pending | pending | pending | pending | pending |
| SPJ-00128 | pending | pending | pending | pending | pending |
| SPJ-00129 | pending | pending | pending | pending | pending |
| SPJ-00130 | pending | pending | pending | pending | pending |
| SPJ-00131 | pending | pending | pending | pending | pending |
| SPJ-00132 | pending | pending | pending | pending | pending |
| SPJ-00133 | pending | pending | pending | pending | pending |
| SPJ-00134 | pending | pending | pending | pending | pending |
| SPJ-00135 | pending | pending | pending | pending | pending |
| SPJ-00136 | pending | pending | pending | pending | pending |
| SPJ-00137 | pending | pending | pending | pending | pending |
| SPJ-00138 | pending | pending | pending | pending | pending |
| SPJ-00139 | pending | pending | pending | pending | pending |
| SPJ-00140 | pending | pending | pending | pending | pending |
| SPJ-00141 | pending | pending | pending | pending | pending |
| SPJ-00142 | pending | pending | pending | pending | pending |

---

---

| | |
|:---|:---|
| Sample ID | Description |
| SPJ-00124 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00125 | Reddish soil with clay-sized particles. |
| SPJ-00126 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00127 | Reddish soil with clay-sized particles |
| SPJ-00128 | Volcanic rock with a greenish matrix and amygdales and vesicles filled with kaolinite |
| SPJ-00129 | Volcanic rock with a greenish matrix and amygdales and vesicles filled with kaolinite |
| SPJ-00130 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00131 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00132 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00133 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00134 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00135 | Reddish soil with clay-sized particles |
| SPJ-00136 | Reddish soil with clay-sized particles |
| SPJ-00137 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00138 | Clast-supported conglomerate with clasts about 4 cm in size, composed of green volcanic rock and another whitish aphanitic rock. The matrix is composed of green mud |
| SPJ-00139 | Volcanic rock with a greenish matrix and amygdales and vesicles filled with kaolinite |
| SPJ-00140 | Reddish soil with clay-sized particles |
| SPJ-00141 | Reddish soil with clay-sized particles |
| SPJ-00142 | Reddish soil with clay-sized particles |

---

Table [ ] – Mineral Right 831.643/2024 - Surface samples details. RCO: Recent Cover; KAM: Kamafugite; CON: Conglomerate.

Geological mapping and surface sampling have been executed; 19 surface samples were collected and confirmed mineralization for both rare earths and titanium.

Next steps of exploration campaign include:

---

| | |
|:---|:---|
| ⮚ | Topographic survey with LiDAR |
| ⮚ | Drone geophysics: Magnetometry and Gamma |
| ⮚ | Auger and diamond drilling |
| ⮚ | Chemical analysis of drilling samples |
| ⮚ | Metallurgical and Mineralogical tests |

---

![](image_029.jpg)

Figure 24 - Alto Paranaíba Project mineral rights.

For purposes of geological exploration, these 22 mineral rights have been divided into three blocks: (i) Block 1 – Carmo do Paranaíba; (ii) Block 2 – Patos de Minas; and (iii) Block 3 – Tiros.

![](image_030.jpg)

Figure 25 - Alto Paranaíba Project mineral rights included in Block 1, Block 2, and Block 3.

**Exploration Activities**

Our geology team, under the supervision of a Qualified Person under Regulation S-K 1300 for rare earths and titanium, has been performing several mineral research activities, including the following:

● Compilation
 of public data: GIS database containing mainly lithologies, geophysics, public mapping data
 and information from neighboring competitors, such as the base elevation of the Mata da Corda
 Group. It also includes the ALOS PALSAR digital elevation model (12.5 m) for topography.

● Estimation
 of tonnage potential: Expedited cubing performed for the areas of greatest interest based
 on public data. Density used 1.8 g/cm³. The result includes recent coverage that overlaps
 the Mata da Corda Group.

● First-Step
 Reconnaissance: Rapid geological reconnaissance performed targeting the main outcrops that occur in the
 area and identification of units. Rock sampling is performed in parallel (chip sampling).

● Detailed
 Mapping: Semi-detailed geological mapping with identification and description of outcrops
 that represent the entire unit of interest in the area. The base, thickness and continuity
 or lateral variation of the layers are also identified. Focuses on identifying the main facies
 and distribution of the Mata da Corda group. It is also accompanied by rock sampling (chip
 sample).

● Lidar:
 by drone flight, for high-detail topography (50cm precision).

● Geophysics:
 Aeromag and terrestrial Gamma have been used so far, using publicly available regional geophysical
 maps (Figure 26 and Figure 27).

● Auger
 Drilling (AD): Performed with our own equipment, it is capable of drilling an average
 depth of 20 meters; useful for exploratory holes and large sample production.

![](image_010.jpg)

Figure 26 – Two publicly available magnetometry maps: analytical signal and vertical derivative.

![](image_011.jpg)

Figure 27 – Ternary maps of radiometry and total magnetometry intensity.

**Surface Sampling**

We have carried out a soil sampling campaign, with 479 samples collected, and several strong results such as approximately 15,000 ppm of Total Rare-Earth Oxides ("TREO") and 20% of TiO<sub>2</sub> in our mineral right 831.268/2021.

We also carried out an auger drilling survey in two mineral rights of Block 3 (831.277/2019 and 831.278/2019), both of which are part of the Option. Five exploration drillholes, summing 62 drilled meters, intercepted Capacete Formation.

Mineral rights located in Block 2 show TREO > 1,500 ppm, reaching at times up to 8,000 ppm, and 8% < TiO<sub>2</sub> <12% and including readings of TiO<sub>2</sub> > 12% for some samples. In all such mineral rights the presence of Capacete Formation has been mapped, and in some places, it is up to 70 meters thick.

Block 3 also shows high grade locations, including samples which show TREO > 4,000 ppm and TiO<sub>2</sub> > 12%.

High levels of TREO and TiO<sub>2</sub> were obtained through an extensive whole rock sampling campaign (Figure 28), totaling 726 samples of soil, conglomerates, aphanitic porphyritic volcanic rocks, sandstones, mudstones, lateritic canga, among others. Among the 726 samples analyzed, 549 samples resulted in levels above 1,000 ppm of TREO, of which 117 resulted in levels above 3,000 ppm of TREO and 700 ppm of MREO. Of the total samples, 180 obtained TiO<sub>2</sub> above 10%, while 23 obtained levels above 15%. In general, analytical results with high TREO and TiO<sub>2</sub> contents were obtained, with some Block 3 contents being exceptional (TREO > 10,000 ppm, for example). While the sample with the highest content in Block 1 resulted in 5,894 ppm TREO, the areas of Block 2 demonstrate 2 samples with contents above 6,000 ppm TREO. Blocks 1 and 2 present similar results when comparing the content averages (TREO, TiO<sub>2</sub> and MREO), with Block 1 presenting slightly higher averages (Table 1).

---

| | | |
|:---|:---|:---|
|  | Block 1 – Surface | Block 2 – Surface |
| Average TREO (ppm) | 1915 | 1814 |
| Average TiO<sub>2</sub> (%) | 9 | 8 |
| Average MREO (ppm) | 447 | 427 |

---

Table 1 – Average contents in surface samples in Blocks 1 and 2.

The samples from Blocks 1 and 2, as well as the high grades, are well distributed throughout the occurrence of the Mata da Corda Group within these areas, indicating lateral continuity for the mineralization of the unit. These samples reflect the occurrence of outcrops, which mostly occur in the slope region, so the plateau region has a smaller number of samples or even lower grades.

Block 3, with only one area sampled to date, also has high grades such as 4,770 ppm for TREO and 16% for TiO<sub>2</sub>.

![](image_013.jpg)

Figure 28 – Top whole rock sample results in the Alto Paranaíba Project.

**Block 1**

Our mineral rights of Block 1 (832.698/2024 and 832.690/2024) have profiles with large thicknesses (~110 meters) of outcropping Capacete Formation (Figure 29 and Figure 30), potentially being a type of deposit similar to that of Resouro. The Mata da Corda Group occurs from elevations of 945m to 1050m, with a lateritic cover, suggestive of alteration of the Mata da Corda, overlapping the formation from 1050m to 1100m (Figure 31). The volcanic rocks present magnetism, mostly with an aphanitic texture, locally porphyritic or with amygdalae. Volcanic breccias also occur. The Capacete conglomerate has strong magnetism, is mostly polymictic (clasts of various types) and supported by the matrix, composed of green or reddish clay (Figure 32).

Detailed mapping observed intercalations of volcanic rock ("Patos Formation") with sedimentary rock, with laterally restricted continuities. Sampling showed high levels of TREO and TiO<sub>2</sub> in samples dispersed in the areas and at different topographic elevations. Significant levels of magnetic rare earths oxides ("MREO") are also found in the areas (Figure 30).

Figure 29 – Block 1 representative TREO and TiO<sub>2</sub> sample grades.

![](image_032.jpg)

Figure 30 – Block 1 representative MREO sample grades.

![](image_017.jpg)

Figure 31 – Block 1 stratigraphic profiles, showing thick layers of conglomerates from the Capacete Formation and the Patos Formation.

![](image_019.jpg)

Figure 32 – Conglomerates of the Capacete Formation in Block 1, clast-supported facies and matrix-supported facies.

**Block 2**

In the mineral rights of Block 2, the Mata da Corda Group occurs over a wide area (Figure 33) and with thicknesses of up to 80 meters, outcropping from 940m to 1020m, with layers of conglomerates of the Capacete Formation up to 25m thick intercalated with layers of volcanic rock of the Patos Formation (Profiles 2). The lateritic cover in block 2 reaches 50 meters and in some places presents imbricated clasts, systematic granulometric variation and "clasts" with preserved igneous textures (e.g. porphyritic), suggesting that the cover is the product of alteration of the Capacete Formation in these places.

Sampling showed high levels of TREO and TiO<sub>2</sub> distributed vertically and laterally along the Mata da Corda mapped in the areas (Figure 33). MREO levels are also promising levels (Figure 34).

In general, Patos and Capacete Formations appear in alternating layers with a very close distribution to each other (Figure 35). The Patos Formation presents varied textures: aphanitic, porphyritic (brown phenocrysts), with white amygdalae (zeolites?) and sometimes brecciated. In most cases, the volcanic rocks outcrop with advanced weathering, occurring in a friable state or even completely transformed into clay. The magnetism of these rocks, although present, is not as intense as in their sedimentary products. The Capacete Formation, for the most part, presents clast-supported conglomerates that vary between monomictic (only one type of clast) and polymictic, with a matrix composed of greenish clay and sometimes white in color. The clasts are predominantly composed of greenish aphanitic volcanic rocks and some brown and white mineral phases (Figure 36 and Figure 37).

Figure 33 – Geological Map of Block 2 with location of profiles and best TREO and TiO<sub>2</sub> contents.

![](image_033.jpg)

Figure 34 – Geology and MREO contents for samples from Block 2, showing the lateral continuity of the high MREO content layer.

![](image_022.jpg)

Figure 35 – Stratigraphic profiles of Block 2, demonstrating intercalations of volcanic rock and conglomerates.

![](image_024.jpg)

Figure 36 – Conglomerates of the Capacete Formation in Block 2, clast-supported facies and matrix-supported facies.

![](image_025.jpg)

Figure 37 – Samples of volcanic rock demonstrating aphanitic texture and outcrop of purple volcanic rock demonstrating vesicles filled with white clays, both classified in the literature as kamafugites.

Block 3 presents very high TREO contents, such as 10,000 < TREO < 28,000 ppm, but the occurrence dimensions of the Mata da Corda Group are restricted, since the mineral rights do not show many areas with elevations higher than 960 meters, the base level of the Mata da Corda in the region (Figure 38).

![](image_026.jpg)

Figure 38 – Grade map of Block 3.

Geological mapping in areas 831.277/2019 and 831.278/2019 shows that Mata da Corda occurs above 960 meters, with the Capacete formation predominating, with mainly supported matrix and polymictic conglomerates. A total of five auger holes were drilled in these mineral rights. All of these holes were positive, intercepting rocks of the Capacete formation with advanced weathering. The holes presented attractive average contents:

● Average TREO: 4,818 ppm

● Average TiO<sub>2</sub>: 12 %

● Average MREO: 1,352 ppm

A schematic representation of three of the auger drill holes and some of their results is in Figure 39.

The average of surface samples results (ppm) per individual rare earth element for each block is summarized in the table below:

---

| | | | | | | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) | TER - TOTAL RARE EARTH (ppm) |
|  | | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | MRE - MAGNETIC RARE EARTH | | | | | | | | | | | |
|  |<br>BLOCK | **Nd** | **Pr** | **Dy** | **Tb** | **Ce** | **La** | **Sm** | **Er** | **Eu** | **Gd** | **Ho** | **Lu** | **Tm** | **Y** | **Yb** |
| **AVERAGE** | **1** | 287 | 79 | 15 | 3 | 733 | 373 | 41 | 6 | 10 | 29 | 2 | 1 | 1 | 56 | 5 |
| **AVERAGE** | **2** | 262 | 73 | 14 | 3 | 666 | 347 | 38 | 5 | 10 | 27 | 2 | 1 | 1 | 54 | 4 |
| **AVERAGE** | **3** | 261 | 71 | 11 | 2 | 1034 | 354 | 35 | 4 | 8 | 21 | 2 | 0 | 1 | 42 | 3 |

---

Table [ ] – Average of surface samples results (ppm) per individual rare earth element for each block.

![](image_028.jpg)

Figure 39 – Section showing three auger drill holes (DHT-001, -002 and -003), with representative results at specific depths.

**Quality Assurance and Quality Control**

We have utilized Quality Assurance (QA) and Quality Control (QC) methodologies under the supervision of a qualified person as defined in Regulation S-K 1300.

In particular, as described above, we carried out a surface sampling and an auger drilling campaign, aiming to identify and delineate geochemical anomalies associated with rare earth mineralization. The surface sampling campaign included soil and chip rock samples of all lithology and layers across our mineral rights. The auger drilling campaign tested possible targets to evaluate the mineralization potential. Both campaigns had all geochemical analysis performed by SGS-Geosol, an analytical laboratory located in Vespasiano, Brazil, which is considered to be the premier such testing site in Brazil ("SGS-Geosol"). SGS-Geosol is ISO 14001 and 17025 accredited by the Standards Council. SGS-Geosol is an independent third-party and provides services pursuant to arms-length contracts.

The auger drillholes were vertical and the reported intervals corresponded to the true thickness. The cores were placed in boxes, aligned and measured by the technician or geologist for core recovery. The core boxes were identified with a code, a hole ID and tags. The logging and sampling were performed at our core logging facilities. The sample intervals were defined by 1 meter, varying depending on the lithological contact, and the material for chemical analysis consisted of the right half of the core, resulting in samples with an average weight of 5 Kg. These samples were then gathered in a labelled bag, and the remaining half is kept at the box with the sample ID tag, for reference. The bagged samples were then sent to SGS-Geosol.

All samples received at SGS-Geosol were inventoried and weighted prior to being processed. Drying was done to samples having excess humidity. Sample material was crushed using jaw crushers. The SGS-Geosol analytical method used for our samples is one of their standard packages. Analytical results were sent electronically by SGS-Geosol directly to us and results were compiled in an MS Excel spreadsheet by the project geologists.

Similar procedures as described above were used for our graphite studies, described later in this prospectus.

In addition to the laboratory quality assurance quality control (QA/QC) routinely implemented by SGS Geosol using pulp duplicate analysis, Atlas developed an internal QA/QC protocol for the projects, which consisted of the insertion of analytical standard reference materials (standards), blanks and core duplicates on a systematic basis with the samples shipped to the analytical laboratory.

Through the implementation of these protocols, Atlas ensures the quality and integrity of data, maintaining full traceability and accuracy in the results and in the processes related to geological interpretation and evaluation.

Competitor's Efforts

Multiple of our mineral rights border and/or are close to mineral rights that belong to two listed companies: Resouro Strategic Metals ("Resouro") near the municipality of Tiros and Equinox Resources Limited ("Equinox") near the municipality of Patos de Minas (Figure 40). Resouro and Equinox have each publicly disclosed the presence of significant concentrations of rare earths and titanium in their projects.

![](image_031.jpg)

Figure 40 – Map showing our mineral rights areas in relation to those of two competitors in the region – Resouro and Equinox.

**<u>Goiás Project – Rare Earths</u>**

The Goiás Project is composed of the 18 mineral rights listed below. If the Option is exercised, an additional 18 mineral rights will be added, for a total of 36 mineral rights.

The mineral rights are located in western Goiás, in the region of Montes Claros de Goiás, Iporá and Santa Fé towns. In geological terms, this region comprises the Tocantins Structural Province in the Brasilia Fold Belt and has one geological formation with alkaline chemical affinity that are favorable for rare earths mineralization: Iporá Alkaline Complex, related to the Goiás Alkaline Province (Cretaceous). Such formation shows plutonic and subvolcanic/volcanic rocks, such as syenite, basaltic-andesite, gabbro, dunite, peridotite, pyroxenite, lamprophyre and others. They occur as sills, dikes, plugs and pipes, lava and pyroclastic deposits. These rocks can be intruded into older units such as Goiás Orthogneiss, Iporá Granite and Furnas Formation.

These rocks have high rare earths contents, as well as high P and may also have high Nb and Ni contents. Our mineral rights are in regions with odds of occurrence of the intrusions non-mapped by the regional and some mineral rights already have Iporá Alkaline Complex mapped by the regional public data. Other mineral rights (close to Iporá town) are directly adjacent to Appia, a listed company that has disclosed promising results for rare earths in its adjacent project. The weathering profile of the region can lead to laterization, which favors the formation of ionic clay deposits.

While these mineral rights are an important part of our mineral rights portfolio, they currently are not the principal focus of our development efforts as of the date of this prospectus. As the Company's business develops and economic conditions justify their development and extraction, management intends to explore the further development and extraction of these minerals. A regional geographical map showing the location of the mineral rights follows, although a further description of the Company's mineral rights, including maps showing the specific locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

![](formf-1_061.jpg)

Figure 59: Regional geological map with our mineral rights (in blue) and the occurrence of the Ipora Alkaline Complex

![](formf-1_062.jpg)

Figure 60: Geological map showing the proximity of our mineral rights to the Appia targets, and the Ipora Alkaline Complex occurrence.

The Company's mineral rights are listed below, consisting of 18 owned by the Company with an additional 18 mineral rights to be added in the event the Company exercises the Option, resulting in a total of 36 mineral rights:

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Project | Mineral Right Number | Area (size in hectares) | Mineral | Municipality | State, Country |
| Goiás Project | 860.756/2023 | 1950.80 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.752/2023 | 1904.78 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.751/2023 | 1829.79 | Rare Earths, Potash | Montes Claros de Goiás | Goiás, Brazil |
| Goiás Project | 860.750/2023 | 1877.82 | Rare Earths, Potash | Montes Claros de Goiás | Goiás, Brazil |
| Goiás Project | 860.749/2023 | 1928.80 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.748/2023 | 1981.29 | Rare Earths, Potash | Montes Claros de Goiás | Goiás, Brazil |
| Goiás Project | 860.747/2023 | 1976.96 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.746/2023 | 1990.71 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.745/2023 | 1945.80 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.744/2023 | 1934.35 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.742/2023 | 1927.43 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.741/2023 | 1992.67 | Rare Earths, Potash | Jussara, Santa Fé de Goiás | Goiás, Brazil |
| Goiás Project | 860.740/2023 | 1969.60 | Rare Earths, Potash | Jussara, Santa Fé de Goiás | Goiás, Brazil |
| Goiás Project | 860.739/2023 | 1955.89 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.738/2023 | 1940.81 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.737/2023 | 1951.10 | Rare Earths, Potash | Jussara | Goiás, Brazil |
| Goiás Project | 860.736/2023 | 1958.39 | Rare Earths, Potash | Jussara, Britânia | Goiás, Brazil |
| Goiás Project | 860.735/2023 | 1988.76 | Rare Earths, Potash | Jussara | Goiás, Brazil |

---

**<u>Graphite</u>**

**Overview**

Graphite has been on the list of the minerals considered critical to the economic and national security of the United States since an initial list published by the U.S. Department of the Interior on May 18, 2018. Graphite is the most used anode in lithium-ion batteries, benefitting from its high energy and power density. The global need for high-quality, low impurity graphite is directly related to the growth in electric vehicle ("EV") adoption as discussed above. According to recent publication from Benchmark Mineral Intelligence, a well-respected mineral consultancy, to meet demand for anode materials, an estimated 97 natural flake graphite mines will need to be built by 2035, assuming an average size of 56,000 tons a year and no contribution from recycling.

Graphite plays a critical role in steel production, automotive manufacturing, lubricants, and battery technology—particularly as the anode material in most lithium-ion batteries. It also is used extensively in military applications including rocket and missile nozzles, jet engine components, submarine hulls to reduce acoustic signatures, and more.

China accounts for 77% of the world's graphite production, with the U.S. sourcing 44% of its supply from China. Despite its reliance on imports, the U.S. has no active graphite mines.

Natural graphite is a naturally occurring form of carbon that is characterized by its crystalline structure and unique properties, including excellent electrical and thermal conductivity. It is primarily found in three forms: flake, amorphous, and lump graphite. Flake graphite is the most commercially valuable form, used in various applications due to its high purity and conductivity. Natural graphite is essential in numerous industries, particularly in the production of batteries, lubricants, and refractories, making it a critical mineral in the modern economy.

Countries with significant natural graphite reserves include China, Brazil, Mozambique, Madagascar, and India. As of 2023, China holds the largest reserves, estimated at around 78 million metric tons, which accounts for approximately 28% of the global total. Brazil follows with about 74 million metric tons, while Mozambique and Madagascar have reserves of 25 million and 24 million metric tons, respectively. Despite these reserves, the mining and processing of natural graphite are not evenly distributed globally. China dominates the processing sector, controlling over 60% of the world's graphite production and refining capabilities. This concentration of processing capacity raises concerns about supply chain vulnerabilities for countries that rely heavily on imported graphite.

Natural graphite is used in a wide range of applications, with the most significant demand coming from the battery industry, particularly for lithium-ion batteries ("LIBs"). As the world transitions to EVs and renewable energy storage solutions, the demand for natural graphite is expected to surge. In 2023, approximately 33% of natural graphite was used in batteries, while other applications included lubricants, refractories, and foundry products. The unique properties of natural graphite, such as its ability to withstand high temperatures and its excellent conductivity, make it an ideal material for these applications. Furthermore, the growing emphasis on sustainability and environmental responsibility has led to increased interest in natural graphite, as it is often considered more environmentally friendly compared to synthetic alternatives.

The importance of natural graphite to the U.S. economy is significant, particularly as the country seeks to enhance its technological capabilities and reduce dependence on foreign sources. The U.S. has identified natural graphite as a critical mineral, essential for national security and economic stability. Currently, the U.S. relies heavily on imports for its graphite supply, with a substantial portion coming from China. This reliance poses risks, especially in light of geopolitical tensions and trade restrictions. To mitigate these risks, the U.S. government is actively pursuing strategies to bolster domestic production and processing of natural graphite, which could enhance supply chain resilience and support the growth of clean energy technologies.

When comparing natural graphite to synthetic graphite, several advantages of natural graphite become apparent. Natural graphite typically has a higher crystalline structure, which results in better electrical and thermal conductivity than synthetic graphite. Additionally, natural graphite is often less expensive to produce, as it requires less energy and fewer resources compared to the energy-intensive processes involved in synthesizing graphite. The environmental impact of natural graphite extraction can also be lower than that of synthetic graphite production, particularly when sustainable mining practices are employed. As demand for graphite continues to rise, the benefits of natural graphite over synthetic alternatives will likely play a crucial role in shaping future supply chains and market dynamics.

In summary, natural graphite is a vital resource with significant reserves concentrated in a few countries, primarily China. Its applications in batteries and other industries underscore its importance to the U.S. economy, particularly as the nation seeks to enhance its technological capabilities and reduce reliance on imports. The advantages of natural graphite over synthetic graphite further highlight its potential role in supporting sustainable development and clean energy initiatives.

**Graphite in Brazil**

Brazil holds significant potential for natural graphite production, boasting the second-largest reserves of this critical mineral globally, estimated at approximately 74 million metric tons as of 2024. This positions Brazil as a key player in the graphite market, particularly as demand for natural graphite is projected to grow rapidly due to its essential role in various applications, including batteries for EVs, lubricants, and steel production. The Brazilian graphite market is expected to experience a compound annual growth rate ("CAGR") of 6.1% from 2025 to 2030, with natural graphite being the fastest-growing segment within the industry.

The country is also strategically positioned to capitalize on the Increasing global demand for graphite, driven by the transition to renewable energy and the electrification of transportation. Brazil's government is actively promoting the development of its mineral resources, including graphite, to enhance its industrial capabilities and reduce reliance on imports. However, challenges remain, such as the need for improved infrastructure and investment in mining technologies to fully exploit its graphite reserves. With the right policies and investments, Brazil could emerge as a leading supplier of natural graphite in the coming years.

**Our Graphite Efforts**

Our Malacacheta Project is strategically positioned to target critical minerals, specifically graphite. While in the early stages of development, this project offers significant long-term growth potential.

Our Arcos Project is a graphite project located near Nacional de Grafite, a leading graphite producer with over eight decades of experience in the Brazilian market. The Arcos Project requires further geological exploration but complements our overall portfolio and presents additional opportunities.

Our study area is strategically situated within the Araçuaí Orogen, a geologically complex region in eastern-central Brazil, encompassing parts of Bahia, Minas Gerais, and Espírito Santo states. Nestled at the southern edge of the São Francisco Craton, this orogen boasts a rich and intricate history shaped by multiple subduction events and tectonic developments spanning over 880 million years. The Macaúba Basin, a key component of this history, provides valuable insights into the region's early Evolution.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Minas Gerais Project | 830.471/2025 | 1938.77 | Graphite | Divisópolis | Minas Gerais, Brazil |
| Minas Gerais Project | 830.470/2025 | 1901.48 | Graphite | Divisópolis | Minas Gerais, Brazil |
| Minas Gerais Project | 830.467/2025 | 1988.32 | Graphite | Divisópolis | Minas Gerais, Brazil |
| Minas Gerais Project | 830.466/2025 | 1957.28 | Graphite | Divisópolis | Minas Gerais, Brazil |

---

**Our Mineral Properties – Graphite**

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Project | Mineral Right Number | Area (size in hectares) | Mineral | Municipality | State, Country |
| Malacacheta Project | 831.698/2021 | 260.95 | Graphite | Malacacheta | Minas Gerais, Brazil |
| Malacacheta Project | 830.954/2021 | 997.28 | Graphite | Malacacheta | Minas Gerais, Brazil |
| Arcos Project | 830.073/2022 | 1655.13 | Graphite | Arcos | Minas Gerais, Brazil |
| Minas Gerais Project | 830.471/2025 | 1938.77 | Graphite | Divisópolis | Minas Gerais, Brazil |
| Minas Gerais Project | 830.470/2025 | 1901.48 | Graphite | Divisópolis | Minas Gerais, Brazil |
| Minas Gerais Project | 830.467/2025 | 1988.32 | Graphite | Divisópolis | Minas Gerais, Brazil |
| Minas Gerais Project | 830.466/2025 | 1957.28 | Graphite | Divisópolis | Minas Gerais, Brazil |

---

The following mineral rights are currently deemed by management to be material to the Company's business:

*<u>Mineral Right 831.698/2021</u>*

Current Status: Exploration Permit, with a final research report filed by the prior owner with ANM and under current review.

![](ba_020.jpg)

Figure 61 – Map of Mineral Right 831.698/2021.

*<u>Mineral Right 830.954/2021</u>*

Current Status: Exploration Permit, valid until June 25, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ba_021.jpg)

Figure 62 – Map of Mineral Right 830.954/2021.

The following mineral right is deemed by management not to be material as of the date of this prospectus; however, as economic and market conditions warrant, management may develop the mineral right in the future:

*<u>Mineral Right 830.073/2022</u>*

Current Status: Exploration Permit, valid until August 30, 2025. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ba_022.jpg)

Figure 63 – Map of Mineral Right 830.073/2022.

**Malacacheta Project – Graphite**

In our Malacacheta Project, during our initial exploration phase in 2023, we successfully identified surface outcrops with visible graphite, delineated mineralized bodies, and established a primary structural trend. Rock samples were collected (nine samples), and preliminary auger core drilling was conducted (29 drill holes), providing strong indications of the project's potential.

![](formf-1_017.jpg)

Figure 64 – Malacacheta Project – our interpretation of the local structural trend.

![](formf-1_018.jpg)

Figure 65 – Malacacheta Project – outcrop of graphitic mica schist with "flake".

![](formf-1_019.jpg)

Figure 66 – Malacacheta Project – outcrop of graphitic mica schist with intercalated gneiss layers.

Our latest exploration campaign has expanded our understanding of the Malacacheta Project's mineral potential. We have systematically mapped and described 43 new targets, paying close attention to surface exposures and sub-surface features. A comprehensive sampling program has been completed, with 17 samples of graphite schist and mica-schist with graphite collected from mineral rights 830.954/2021 and 831.698/2021. These samples are currently undergoing detailed geochemical analysis at the SGS laboratory in Vespasiano, Minas Gerais, a well-regarded independent facility.

We have identified significant graphite schist bodies within both analyzed areas, intercalated as lenses within mica schist. The area identified by the registration 830.954/2021 stands out as the most promising, with two highly significant occurrences. The graphite observed exhibits strong characteristics indicative of high-quality, as evidenced by the distinctive mineralogical signature of the streak.

![](formf-1_020.jpg)

Figure 67 – Flake-shaped graphite and Graphite Schist outcrop

**<u>Uranium</u>**

**Overview**

Uranium is essential for nuclear energy and weapons. The U.S. imports ~95% of uranium, primarily from Canada and Kazakhstan. China controls 13% of global production.

Uranium is a dense, silvery-white metal with the chemical symbol U and atomic number 92. It is a naturally occurring element found in rocks, soil, and water, and it is best known for its role as the primary fuel for nuclear power plants. Uranium's unique properties, including its ability to undergo nuclear fission—where the nucleus of an atom splits, releasing a significant amount of energy—make it a critical resource for generating electricity and powering nuclear reactors. In addition to its energy applications, uranium also has important uses in military technologies, including nuclear weapons and naval propulsion systems for submarines and aircraft carriers.

The global distribution of uranium reserves is concentrated in a few key countries. Australia holds the largest share, accounting for approximately 28% of the world's known recoverable reserves, followed by Kazakhstan and Canada. Together, these three countries dominate global uranium production, with Kazakhstan being the largest producer, responsible for over 40% of the world's supply. Other significant producers include Namibia, Niger, and Russia. The United States also has substantial uranium reserves, primarily in Wyoming and New Mexico, but domestic production has declined significantly in recent decades, leaving the country reliant on imports to meet its needs.

Uranium's primary use is in the generation of nuclear energy. Nuclear power plants use enriched uranium, typically in the form of uranium dioxide pellets, as fuel to produce electricity through controlled nuclear fission reactions. This process provides a reliable, low-carbon source of energy, making nuclear power an important component of efforts to combat climate change. In addition to civilian energy production, uranium is essential for military applications. Highly enriched uranium is used in the production of nuclear weapons, while lower-enriched uranium powers naval reactors for submarines and aircraft carriers. The element is also used in research reactors and in the production of medical isotopes for cancer treatment and diagnostic imaging.

Kazakhstan's dominance in uranium mining is largely due to its use of in situ recovery (ISR) technology, a cost-effective and environmentally less invasive method of extracting uranium from underground deposits. The country's state-owned company, Kazatomprom, is the world's largest uranium producer, supplying fuel to global markets. Canada, particularly through its high-grade uranium mines in Saskatchewan, also plays a crucial role in the global supply chain. However, the processing and enrichment of uranium are concentrated in a few countries, with Russia, the United States, France, and China leading in enrichment capacity. This concentration has raised geopolitical concerns, particularly in light of tensions between major powers.

For the United States, uranium is a critical mineral due to its importance in both energy security and national defense. Nuclear power provides about 20% of the country's electricity and is its largest source of carbon-free energy. However, the U.S. currently imports over 90% of its uranium, primarily from Canada, Kazakhstan, and Australia, making it highly dependent on foreign sources. The U.S. government has been working to revitalize domestic uranium mining and processing capabilities, including the establishment of a strategic uranium reserve to reduce reliance on imports and ensure a stable supply for both civilian and military needs.

As the world transitions to cleaner energy sources, uranium's role in the global economy is expected to grow. Nuclear power is increasingly recognized as a key component of strategies to reduce carbon emissions, particularly in countries seeking to replace coal and other fossil fuels. The development of advanced nuclear technologies, such as small modular reactors (SMRs) and next-generation reactors, could further increase demand for uranium. However, challenges such as public opposition to nuclear power, concerns about nuclear waste, and geopolitical tensions surrounding uranium supply chains must be addressed. Given its critical role in energy and security, uranium will continue to be a vital resource in the decades to come.

**Uranium** **in Brazil**

Brazil holds significant uranium reserves, ranking among the top ten countries globally in identified resources. However, uranium mining in Brazil is subject to stringent government control, as uranium extraction, processing, and commercialization fall under state monopoly, as defined by the Brazilian Constitution. Indústrias Nucleares do Brazil ("INB") is the state-owned company responsible for uranium mining and nuclear fuel production in the country.

The Federal Constitution establishes that "the exploration of nuclear services and facilities of any kind, as well as the state monopoly over the research, mining, enrichment, reprocessing, industrialization, and trade of nuclear ores and their derivatives," is an exclusive competence of the Brazilian federal government. Furthermore, Law No. 14.514/2022 and Decree No. 51.726/1963 stipulate that Brazil's federal monopoly includes:

● Research
 and mining of nuclear ore deposits located within national territory;

● The
 trade of nuclear ores and their concentrates, nuclear elements and their compounds, fissile and fertile materials, artificial radioisotopes,
 radioactive substances from the three natural series, and nuclear by-products;

● The
 production and industrialization of nuclear materials.

Nuclear activities in Brazil are monitored by the National Nuclear Energy Commission (CNEN), and operations are conducted exclusively by INB, the sole company authorized to mine and process uranium in the country. Recently, Law No. 14.514/2022 allowed INB to provide services to national and international entities, both public and private, within Brazil or abroad, while maintaining Brazil's federal monopoly. Additionally, nuclear activities in Brazil require legislative approval and are permitted solely for peaceful purposes, as per international agreements ensuring responsible use of nuclear energy.

Anticipating potential legislative changes in Brazil in the coming years, we are strategically evaluating areas with uranium potential.

The following is a description of our rare earth, phosphate and uranium**\*** mineral rights owned by the Company. These rights are currently deemed by management to be immaterial to the Company's current development plan; however, as the Company's business develops and market conditions render the further development and extraction of these minerals economically feasible, management intends to monetize its mineral rights set forth below. A further description of the Company's immaterial rare earth, phosphate and uranium and mineral rights, including maps showing the locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| **Project** | **Mineral Right Number** | **Area <br> (hectares)** | **Mineral** | **Municipalities** | **State, <br> Country** |
| Tocantins Project | 864.038/2025 | 9784.21 | Rare Earths, Phosphate, (Uranium)\* | Rio Sono | Tocantins, Brazil |
| Tocantins Project | 864.037/2025 | 9878.47 | Rare Earths, Phosphate, (Uranium)\* | Rio Sono | Tocantins, Brazil |
| Tocantins Project | 864.036/2025 | 9512.65 | Rare Earths, Phosphate, (Uranium)\* | Rio Sono | Tocantins, Brazil |
| Tocantins Project | 864.035/2025 | 9507.05 | Rare Earths, Phosphate, (Uranium)\* | Lizarda | Tocantins, Brazil |
| Tocantins Project | 864.034/2025 | 9877.45 | Rare Earths, Phosphate, (Uranium)\* | Rio Sono | Tocantins, Brazil |
| Tocantins Project | 864.033/2025 | 9989.40 | Rare Earths, Phosphate, (Uranium)\* | Miracema do Tocantins | Tocantins, Brazil |
| Tocantins Project | 864.032/2025 | 9859.72 | Rare Earths, Phosphate, (Uranium)\* | Miracema do Tocantins | Tocantins, Brazil |
| Goiás Project | 860.161/2025 | 1970.91 | Rare Earths, (Uranium)\* | Iporá, Amorinópolis | Goiás, Brazil |
| Goiás Project | 860.160/2025 | 1973.39 | Rare Earths, (Uranium)\* | Ivolândia | Goiás, Brazil |
| Goiás Project | 860.150/2025 | 1943.40 | Rare Earths, Phosphate, (Uranium)\* | Ivolândia | Goiás, Brazil |
| Goiás Project | 860.149/2025 | 1970.21 | Rare Earths, Phosphate, (Uranium)\* | Moiporá | Goiás, Brazil |
| Goiás Project | 860.148/2025 | 1824.27 | Rare Earths, Phosphate, (Uranium)\* | Moiporá | Goiás, Brazil |
| Goiás Project | 860.144/2025 | 1980.57 | Rare Earths, Phosphate, (Uranium)\* | Iporá | Goiás, Brazil |
| Goiás Project | 860.133/2025 | 1936.15 | Rare Earths, Phosphate, (Uranium)\* | Iporá | Goiás, Brazil |
| Goiás Project | 860.131/2025 | 1977.18 | Rare Earths, Phosphate, (Uranium)\* | Iporá | Goiás, Brazil |
| Pará Project | 850.087/2025 | 9905.37 | Copper (Uranium)\* | Santana do Araguaia | Pará, Brazil |
| Pará Project | 850.077/2025 | 9600.18 | Copper (Uranium)\* | Santana do Araguaia | Pará, Brazil |
| Minas Gerais Project | 830.464/2025 | 1929.49 | Rare Earths, Graphite (Uranium)\* | Jacinto, Salto da Divisa | Minas Gerais, Brazil |

---

\* Current Brazilian legislation does not allow uranium to be listed as a primary mineral; any discovery of uranium by us would be as a byproduct and in the context of exploring another mineral as listed.

**<u>Copper</u>**

**Overview**

Copper is a highly conductive metal that plays a crucial role in various industries due to its excellent electrical and thermal conductivity, malleability, and resistance to corrosion. It is one of the oldest metals used by humans, with applications dating back thousands of years. In modern times, copper is essential in the manufacturing of electrical wiring, plumbing, roofing, and various electronic devices. Its versatility makes it a critical component in renewable energy technologies, EVs, and infrastructure development, particularly as the world transitions to greener energy solutions.

As of 2023, the largest reserves of copper are found in Latin America, with Chile and Peru holding the most significant shares. Chile is home to approximately 200 million metric tons of copper reserves, making it the world's largest producer, while Peru follows with about 87 million metric tons. Other countries with notable copper reserves include China, Australia, and the United States. Despite having substantial reserves, the U.S. only mines about 5% of the world's copper, highlighting its reliance on imports to meet domestic demand.

China plays a dominant role in the processing of copper, controlling a significant portion of the global refining capacity. Although China holds only about 4% of the world's copper reserves, it produces approximately 45% of the world's refined copper. This processing capacity is largely fueled by imports of raw copper from countries like Chile and Peru, which have established long-term supply agreements with Chinese firms. The concentration of processing capabilities in China raises concerns for other nations, particularly the United States, which seeks to diversify its copper supply chains to reduce vulnerability to geopolitical tensions and trade disruptions.

Copper is utilized in a wide range of applications across various sectors. In the electrical industry, it is used for wiring and power transmission due to its excellent conductivity. In construction, copper is employed in plumbing, roofing, and HVAC systems. The automotive industry also relies on copper for EVs, where it is used in batteries and wiring harnesses. Furthermore, copper is critical in renewable energy technologies, such as solar panels and wind turbines, where it facilitates efficient energy transfer. The demand for copper is expected to increase significantly as the world moves towards electrification and sustainable energy solutions.

The importance of copper to the U.S. economy is substantial, particularly as the country aims to enhance its technological capabilities and reduce dependence on foreign sources. The Biden administration had set ambitious goals for clean energy and infrastructure development, which would require a significant increase in copper supply. By 2035, the U.S. would need to double its annual copper supply to meet such targets. Additionally, copper is classified as a critical mineral by the U.S. government, emphasizing its strategic importance for national security and economic stability. Efforts are underway to bolster domestic copper production and processing capabilities, including investments in mining projects and partnerships with Latin American countries to secure a stable supply.

In conclusion, copper is a vital metal with significant reserves concentrated in Latin America, particularly in Chile and Peru. Its diverse applications across various industries underscore its importance to the U.S. economy, especially in the context of the growing demand for clean energy technologies and infrastructure development. Ensuring a stable supply chain and enhancing domestic production capabilities will be crucial for maintaining the U.S.'s competitive edge in technology and manufacturing.

**Copper in Brazil**

Brazil has significant potential for copper production, with the country being the fourteenth-largest producer of copper globally as of 2023. In that year, Brazil produced approximately 344 thousand metric tons of copper, which, while a decrease from the previous year, still reflects a substantial increase compared to the early 2010s when production was below 214 thousand tons. The country accounts for about 1% of global copper production, with major mining companies like Vale and Lundin Mining leading the sector. Vale, in particular, has been focusing on increasing its output and improving operational efficiencies to capitalize on the growing demand for copper, especially in the context of the global transition to renewable energy and electric vehicles.

Brazil's copper production is expected to grow at a CAGR of approximately 3% between 2023 and 2027, driven by increasing investments in mining infrastructure and exploration activities. The country's rich mineral resources, combined with favorable geological conditions, position Brazil as a key player in the copper market. Additionally, the Brazilian government is actively promoting the mining sector, aiming to attract foreign investment and enhance the regulatory framework to support sustainable mining practices. This strategic focus on copper production aligns with global trends, as the demand for copper is projected to rise significantly due to its essential role in various industries, including construction, electronics, and renewable energy technologies.

The following is a description of our copper mineral rights owned by the Company. These rights are currently deemed by management to be immaterial to the Company's current development plan; however, as the Company's business develops and market conditions render the further development and extraction of copper economically feasible, management intends to monetize its mineral rights set forth below. A further description of the Company's immaterial copper mineral rights, including maps showing the locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Project | Mineral <br> Right <br> Number | Area <br> (hectares) | Mineral | Municipality | State, Country |
| Bom Jardim de Goiás Project | 860.730/2023 | 1994.83 | Copper | Bom Jardim de Goiás | Goiás, Brazil |
| Bom Jardim de Goiás Project | 860.729/2023 | 1245.00 | Copper | Bom Jardim de Goiás | Goiás, Brazil |
| Bom Jardim de Goiás Project | 860.728/2023 | 1974.10 | Copper | Bom Jardim de Goiás | Goiás, Brazil |
| Bom Jardim de Goiás Project | 860.727/2023 | 1942.13 | Copper | Baliza | Goiás, Brazil |

---

**<u>Nickel</u>**

**Overview**

Nickel is a silvery-white metal that is highly valued for its strength, corrosion resistance, and ability to withstand high temperatures. It is primarily used in the production of stainless steel, batteries, and various alloys. Nickel is classified as a critical mineral due to its essential role in modern technologies, particularly in the manufacturing of EV batteries, where it enhances energy density and overall performance. In 2023, over 50% of batteries produced utilized nickel-rich chemistries, underscoring its importance in the transition to cleaner energy sources .

The global distribution of nickel reserves is concentrated in a few key countries. As of 2023, Indonesia is the largest producer of nickel, accounting for approximately 54% of the world's mined nickel supply. Other significant nickel-producing countries include the Philippines, Russia, Australia, and Canada. Indonesia's dominance in nickel production is expected to increase, with forecasts suggesting it will represent over 60% of global supply by 2028. The reserves are primarily found in laterite ores, which are rich in nickel and can be processed to produce nickel metal.

China plays a crucial role in the processing of nickel, controlling a significant portion of the global nickel refining capacity. In 2023, it was reported that around 54% of Indonesia's nickel output came from Chinese majority-owned producers, highlighting the interconnectedness of the two countries in the nickel supply chain. This concentration of processing capabilities raises concerns for other nations, particularly the United States, which relies heavily on imported nickel for its industrial and technological needs.

Nickel is utilized in a wide range of applications beyond batteries. Its primary use is in the production of stainless steel, which accounts for approximately 70% of global nickel consumption. Nickel is also essential in the aerospace and defense industries, where it is used in high-performance alloys and components that require exceptional strength and resistance to corrosion. Additionally, nickel is used in the production of catalysts for chemical processes and in various electronic applications, including data centers and AI technologies.

The importance of nickel to the U.S. economy cannot be overstated, particularly as the country seeks to enhance its technological capabilities and reduce reliance on foreign sources. In 2023, the U.S. imported over 159,000 tons of nickel, with 46% of these imports coming from Canada, which accounted for only 4% of global production. The U.S. government has recognized nickel as a critical mineral, essential for national security and economic stability. Efforts are underway to bolster domestic production and processing capabilities, including investments in mining projects and partnerships with Canadian companies to secure a stable supply of nickel for future needs.

In summary, nickel is a vital metal with significant reserves concentrated in a few countries, primarily Indonesia and the Philippines. Its diverse applications across various industries highlight its importance to the U.S. economy, particularly in the context of the growing demand for electric vehicles and renewable energy technologies. Ensuring a stable supply chain and enhancing domestic production capabilities will be crucial for maintaining the U.S.'s competitive edge in technology and manufacturing.

**Nickel in Brazil**

Brazil has significant potential for nickel production, positioning itself as one of the key players in the global nickel market. As of 2023, Brazil ranks as the eighth-largest nickel producer in the world, contributing approximately 2% of global nickel output. The country has seen a CAGR of 3% in nickel production from 2017 to 2022, with expectations of an accelerated growth rate of 8% CAGR from 2023 to 2027. Major producers in Brazil include mining giants such as Vale and Anglo American, which have been expanding their operations and increasing output. For instance, Vale's nickel production has been bolstered by its extensive mining infrastructure and commitment to sustainable practices, while Anglo American reported a 32% increase in output during 2020-2021.

The demand for nickel is expected to rise significantly, driven by its critical role in battery production for EVs and renewable energy technologies. Brazil's rich nickel reserves, combined with its strategic initiatives to enhance mining operations and attract foreign investment, position the country to capitalize on this growing demand. The Brazilian government is actively promoting the development of its mineral resources, which includes streamlining licensing processes and improving environmental standards to ensure sustainable mining practices. As global markets shift towards greener technologies, Brazil's nickel industry is poised for substantial growth, potentially increasing its share in the international market and contributing to the country's economic development.

The following is a description of our nickel mineral right owned by the Company. This right is currently deemed by management to be immaterial to the Company's current development plan; however, as the Company's business develops and market conditions render the further development and extraction of nickel economically feasible, management intends to monetize its mineral right set forth below.

<u>Project</u> <u>Mineral Right Number</u> <u>Area (hectares)</u> <u>Mineral</u> <u>Municipality</u> <u>State, Country</u> <br> Piauí 803.031/2021 1,101.24 Nickel Capitão Gervásio Piauí, Brazil

*<u>Mineral Right 803.031/2021</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

![](ba_049.jpg)

Figure 94 – Map of Mineral Right 803.031/2021.

**<u>Iron Ore</u>**

**Overview**

The following is an overview of our planned iron ore operations. Although we have a permit to operate an iron ore mine with planned operations commencing prior to the end of 2025, our primary focus is on our critical mineral properties.

Historically, iron has been an essential metal to human development and economic growth. According to the U.S. Geological Survey, over 98% of mined iron ore is used in steel manufacturing. Brazil exported approximately $30 billion in iron ore in 2024 and is the second biggest iron ore producer and exporter in the world, after Australia. China remains the world's largest importer of iron ore, and its demand continues to be a primary driver of the global iron ore market. While fluctuations occur due to various economic factors within China, including government policies and the performance of its real estate sector, its vast industrial base and ongoing infrastructure projects maintain a significant appetite for steel and, consequently, iron ore. India's demand also continues to grow, contributing to the overall global demand for iron ore.

Iron ore is a naturally occurring mineral from which iron (Fe) is extracted. It is primarily composed of iron oxides, with the most common types being hematite (Fe<sub>2</sub>O<sub>3</sub>) and magnetite (Fe<sub>3</sub>O<sub>4</sub>). Iron ore is a critical raw material in the production of steel, which is essential for construction, manufacturing, and various industrial applications. The extraction and processing of iron ore involve several stages, including mining, crushing, and beneficiation, which enhance the ore's iron content before it is smelted in blast furnaces to produce pig iron and subsequently steel.

As of 2023, the largest reserves of iron ore are concentrated in a few key countries. Australia leads the world with approximately 50 billion metric tons of iron ore reserves, accounting for about 29% of the global total. Brazil follows with around 30 billion metric tons, while Russia, China, and India also hold significant reserves, with estimates of 25 billion, 23 billion, and nine billion metric tons, respectively. These countries play a crucial role in the global iron ore market, with Australia and Brazil being the top exporters, supplying a substantial portion of the iron ore consumed worldwide.

Australia is not only the largest holder of iron ore reserves but also the leading producer and exporter of iron ore globally. Major mining companies such as BHP, Rio Tinto, and Fortescue Metals Group operate extensive mining operations in Australia, particularly in the Pilbara region, which is renowned for its high-quality iron ore deposits. Brazil's Vale S.A. is another significant player in the iron ore market, operating the Carajás mine, one of the largest and most productive iron ore mines in the world. The concentration of production and processing in these countries raises concerns about supply chain vulnerabilities for nations that rely heavily on imported iron ore, including the United States.

Iron ore is primarily used in the production of steel, which is vital for various industries, including construction, automotive, and manufacturing. Approximately 98% of the mined iron ore is used to produce steel, making it one of the most important commodities in the global economy. Additionally, iron ore is used in the production of cast iron, which is utilized in pipes, machinery, and automotive components. The demand for iron ore is closely linked to global economic growth, as increased infrastructure development and industrial activity drive the need for steel.

The importance of iron ore to the U.S. economy is significant, particularly as the country seeks to enhance its manufacturing capabilities and infrastructure. The U.S. is one of the largest consumers of iron ore, with domestic production meeting only a fraction of its needs. In 2023, the U.S. produced approximately 48 million metric tons of iron ore, while importing around 60 million metric tons to satisfy demand. The reliance on imported iron ore, primarily from Brazil and Canada, underscores the need for a stable supply chain to support the U.S. steel industry, which is critical for national security and economic stability.

Iron ore is a vital mineral resource with significant reserves concentrated in Australia and Brazil. Its primary use in steel production highlights its importance to various industries and the overall economy. As the U.S. continues to rely on imported iron ore, ensuring a stable supply chain and enhancing domestic production capabilities will be crucial for maintaining competitiveness in manufacturing and infrastructure development.

**Iron Ore in Brazil**

Brazil is a powerhouse in iron ore production, with significant potential for growth in the coming years. In 2023, Brazil's iron ore mine production experienced a robust growth of 6.1%, reaching approximately 410 million tons. This growth trajectory is expected to continue, with projections indicating that production will rise to 436.1 million tons in 2024, driven primarily by Vale, the country's largest iron ore producer. Vale's strategic initiatives, including the expansion of its S11D and Vargem Grande mines, have been pivotal in enhancing production capacity. Vale aims to increase its output to between 340 and 360 million tons by 2026, further solidifying Brazil's position in the global iron ore market.

Brazil's iron ore production is forecasted to grow at a CAGR of 3.8% from 2024 to 2030, potentially reaching 544.6 million tons by the end of the decade. This growth will be supported by ongoing developments in various mining projects, including the Capanema, Amapa, Morro do Pilar, and Colomi projects. However, the industry faces challenges such as environmental concerns, infrastructure bottlenecks, and social conflicts, which could hinder its growth. Despite these hurdles, Brazil's abundant iron ore reserves and the expansion plans of leading producers position the country well for continued growth in the iron ore sector.

The following is a description of our iron ore mineral rights owned by the Company. All but one of these mineral rights are currently deemed by management to be immaterial to the Company's current development plan; however, as the Company's business develops and market conditions render the further development and extraction of iron ore economically feasible, management intends to monetize its mineral rights set forth below. A further description of the Company's immaterial iron ore mineral rights, including maps showing the locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Project | Mineral Right Number | Area (size in hectares) | Mineral | Municipalities | State, Country |
| Rio Piracicaba Project | 833.114/2012 | 188.31 | Iron Ore | Rio Piracicaba | Minas Gerais, Brazil |
| Barão de Cocais Project | 831.616/2019 | 147.24 | Iron Ore | Barão de Cocais | Minas Gerais, Brazil |
| Itabira Project | 830.627/2019 | 1534.74 | Iron Ore | Itabira | Minas Gerais, Brazil |
| Rio Pardo de Minas Project | 830.632/2021 | 1390.35 | Iron Ore | Rio Pardo de Minas | Minas Gerais, Brazil |
| Rio Pardo de Minas Project | 830.633/2021 | 659.75 | Iron Ore | Riacho dos Machados | Minas Gerais, Brazil |
| Rio Pardo de Minas Project | 830.634/2021 | 155.16 | Iron Ore | Rio Pardo de Minas | Minas Gerais, Brazil |
| Rio Pardo de Minas Project | 830.635/2021 | 188.53 | Iron Ore | Rio Pardo de Minas | Minas Gerais, Brazil |
| Rio Pardo de Minas Project | 830.636/2021 | 1227.66 | Iron Ore | Rio Pardo de Minas | Minas Gerais, Brazil |
| Rio Pardo de Minas Project | 830.638/2021 | 1907.12 | Iron Ore | Riacho dos Machados | Minas Gerais, Brazil |
| Antonio Dias Project | 831.343/2021 | 319.35 | Iron Ore | Antonio Dias | Minas Gerais, Brazil |
| Corumbá Project | 868.008/2021 | 1970.32 | Iron Ore | Corumbá | Mato Grosso do Sul, Brazil |
| Alagoas Project | 844.009/2021 | 1904.58 | Iron Ore | Limonero de Anadia | Alagoas, Brazil |
| Alagoas Project | 844.010/2021 | 1939.93 | Iron Ore | Girau do Ponciano | Alagoas, Brazil |
| Alagoas Project | 844.026/2020 | 1892.54 | Iron Ore | Palmeira dos Índios | Alagoas, Brazil |
| Alagoas Project | 844.027/2020 | 1368.47 | Iron Ore | Tanque D´arca | Alagoas, Brazil |
| Alagoas Project | 844.028/2020 | 1946.50 | Iron Ore | Limonero de Anadia | Alagoas, Brazil |
| Alagoas Project | 844.029/2020 | 1976.47 | Iron Ore | Coité do Nóia | Alagoas, Brazil |
| Alagoas Project | 844.030/2020 | 1563.76 | Iron Ore | Tanque D´Arca | Alagoas, Brazil |

---

*<u>Mineral Right 833.114/2012)</u>*

This iron ore mineral right is considered by management to be material to the Company's current business plan. Current Status: Mining concession, the highest title of mineral property in Brazil.

Figure 95 – Map of Mineral Right 833.114/2012.

 ****

**Rio Piracicaba Project – Iron Ore**

The Rio Piracicaba Project is in the rural area of the municipality of Rio Piracicaba, state of Minas Gerais in Brazil, at coordinates 19°56'23.9 "S / 43°12'01.7 "W. The project is located 130 km from Belo Horizonte, capital of the state of Minas Gerais, and is served by paved roads and is also intersected by a railroad used by several mining companies to transport iron ore to the coast.

We hold the title of the mineral right number 833.114/2012, inside which the Rio Piracicaba Project was developed. We acquired the mineral right where its Rio Piracicaba Project is now located from a third-party in 2020 for the equivalent of $925,000. This mineral right sits immediately adjacent to the Água Limpa iron ore mine that belongs to Vale S.A., listed in NYSE, one of the world's top iron ore producers and the largest Brazilian mining company.

The Rio Piracicaba Project is in the Iron Quadrangle, one of the largest mineral provinces in Brazil. It contains the Cauê Formation, main iron mineralized materials unit that occurs in the region, consisting of itabirites and other rocks with a high iron content, represented mainly by hematite and magnetite.

The Cauê Formation has its genesis based on chemical sedimentation under stable platform conditions, which made the Lake Superior type iron deposits. The entire project area falls within the same geological formation, but three iron mineralized lithologies were defined, thus characterizing the deposit: colluvial coverage, friable itabirite and semi-compact itabirite.

![](formf-1_027.jpg)

Figure 113 - Mineral right limits and researched area.

Working under Regulation S-K 1300 standards, during the first and second quarters of 2021, detailed drilling and trenching was carried out in approximately 10% of the mineral right encompassing the Rio Piracicaba Project.

Field activities started in March 2021 and drilling began in April 2021, when 11 diamond drill holes were drilled with drill core recovery, totaling 384 m. During this work, 19 pits were excavated either manually or mechanically with a backhoe loader, totaling 60 m. 27 hectares were also mapped in detail. The diamond drilling generated 55 samples and the sampling of the test pits, 15 samples, all analyzed in four granulometric ranges. During this geological exploration work, 48 density measurements of different lithotypes were made.

![](formf-1_028.jpg)

Figure 114 - Drill Core FRP 03

![](formf-1_029.jpg)

Figure 115 - Geological map within the outline of our mineral right.

A Technical Report Summary of the Rio Piracicaba Project (the "Rio Piracicaba TRS") prepared in accordance with Regulation S-K 1300 is an exhibit to this Registration Statement.

We have full and titled ownership of the mineral right in which the Rio Piracicaba Project is being developed and 100% ownership of such project. A summary table for each class of mineral resource (measured, indicated, and inferred) as found in the Rio Piracicaba TRS is also included below:

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
|  | Measured Mineral Resource | Measured Mineral Resource | Indicated Mineral Resource | Indicated Mineral Resource | Inferred Mineral Resource | Inferred Mineral Resource |
|  | Amount <br> (tons) | Grade | Amount <br> (tons) | Grade <br> (% iron) | Amount <br> (tons) | Grade <br> (% iron) |
| Iron - Rio Piracicaba Project |  |  | 2768046 | 33.62 | 5084867 | 30.39 |

---

The following disclosures apply to the summary table above:

1. For
 purposes of the above disclosure, "mineral resource" has the meaning set forth in Regulation S-K 1300.

2. Mineral
 Resources are estimated at a cut-off grade of 20% iron.

3. Mineral
 Resources are estimated using a long-term iron ore price of U.S.$90 per dry metric ton for the Platts/IODEX 62% iron fines
 CFR China, and U.S./BRL exchange rate of 5.25.

4. Reasonable
 prospects for economic extraction were determined by benchmarking similar operations and developing a 20% iron cut-off grade based
 on operating costs.

5. The
 effective date of the updated Rio Piracicaba TRS is June 16, 2025.

Tonnages (t) in this TRS are presented "in situ".

The specific point of reference for the mineral resources estimated in the Rio Piracicaba Project has the following coordinates: 19<sup>o</sup> 56' 24.40" S and 43<sup>o</sup> 12' 7.58" W. The specific point of reference is also identified in the map below.

![](formf-1_032.jpg)

Figure 116 - Specific point of reference for the mineral resources estimated in the Rio Piracicaba Project.

Planned Operations

We are in the final stage of negotiation with an unaffiliated third-party company that has expertise in mining iron ore and owns a processing facility for raw iron ore. The envisioned transaction is one in which we would lease our mineral right 833.114/2012 to such a company for mining. Leasing a mineral right to a third-party is a common business modality in Brazil which is provided for in We plan to lease our mining right, a legal modality provided for in Article 130 of ANM Ordinance 155/2016.

The anticipated contract is one where Apollo, as the holder of a mining concession, grants the exploration of the deposit to a third company (the "Lessee"), without transferring ownership of the mining rights. The Lessee assumes the exploration and mining of the ROM (Run-of-Mine), the raw, unprocessed ore extracted from the mine, from the permitted area of Apollo's mineral right 833.114/2012, transport it to its processing plant outside the enterprise, and process and sell the concentrated iron ore on the market. Apollo receives payment on the quantity of ROM extracted and also a percentage of the sales of the final processed product.

Before starting such operational activities, it is necessary to present the lease agreement for approval by ANM. In addition, it is necessary to carry out the suppression and installation activities before starting the ROM extraction, as detailed in Apollo's operational permit received from the state of Minas Gerais. The estimated cost of Apollo, according to the lease agreement, is limited to the suppression activity, estimated at approximately $90,500.

The Lessee expects the metallurgical recovery from our ROM to be above 50% and may reach as high as 65%.

**<u>Quartzite</u>**

**Overview**

The following is an overview of our quartzite operations, currently our sole revenue producing property. Although we are currently generating revenues from our quartzite operations, our production of quartzite blocks and slabs is currently paused to address certain identified issues. The primary issue to be resolved is the adoption of an updated drainage plan for the quarry. We have retained an engineering firm to prepare an updated drainage plan for a cost of approximately $2,320, and expect to resume operations by year end 2025. Although we anticipate resuming production, our primary focus is on our critical mineral properties.

Quartzite is a naturally occurring metamorphic rock that forms when quartz-rich sandstone undergoes intense heat and pressure over millions of years. Composed primarily of quartz (silicon dioxide, SiO₂), quartzite is known for its exceptional hardness, durability, and resistance to chemical weathering. These qualities make it a highly sought-after material for a variety of industrial, architectural, and decorative applications. Quartzite occurs in a range of colors, including white, gray, pink, and red, depending on the mineral impurities present during its formation. Its unique combination of strength and aesthetic appeal has made it increasingly popular in construction and interior design.

Quartzite deposits are found worldwide, often in regions with significant geological activity where sandstone has been subjected to metamorphism. Major producers of quartzite include the United States, Brazil, India, South Africa, and Norway. In the United States, quartzite is primarily mined in states like South Dakota, Utah, and Wisconsin. Brazil, known for its vibrant and colorful quartzite varieties, is a leading exporter of high-quality quartzite slabs for the global market. India and South Africa are also significant players, supplying both raw quartzite and finished products for industrial and decorative use.

Quartzite is used in a variety of applications due to its strength, hardness, and resistance to heat and chemicals. In the construction industry, it is commonly used as a building stone for walls, flooring, countertops, and roofing. Its durability makes it an ideal choice for high-traffic areas and outdoor installations. In interior design, quartzite has gained popularity as a premium material for kitchen countertops and bathroom surfaces, offering a natural alternative to engineered quartz and granite. Quartzite is also used in industrial applications, such as the production of silica, an essential component in glassmaking, ceramics, and silicon-based technologies. Additionally, crushed quartzite is used as a base material for roads, railways, and construction projects.

Brazil is a global leader in the production and export of decorative quartzite, known for its vibrant colors and intricate patterns. These slabs are highly prized in international markets, particularly in North America and Europe, for use in luxury interiors. In contrast, countries like India and South Africa focus on supplying quartzite for industrial purposes, including silica production. The processing of quartzite into finished products, such as tiles and countertops, often takes place in countries with advanced manufacturing capabilities, such as Italy and China. This global trade network underscores the importance of quartzite as both a raw material and a finished product in diverse industries.

In the United States, quartzite is increasingly recognized as an important material for both construction and design. Domestic production focuses on supplying the raw material for local markets, while high-end decorative quartzite is often imported. The growing popularity of quartzite in residential and commercial projects has driven demand, particularly in the countertop and flooring markets. However, the environmental impact of quartzite mining and processing, including land degradation and energy use, has raised concerns. Efforts to implement sustainable quarrying practices and reduce waste are becoming more prominent in the industry.

As global demand for durable and aesthetically appealing materials continues to rise, quartzite is expected to play an increasingly important role in construction, design, and manufacturing. Its natural beauty and strength have made it a preferred choice for architects, designers, and homeowners seeking sustainable and long-lasting materials. Additionally, the industrial use of quartzite in silica production will remain critical for the glass, ceramics, and technology sectors. The challenges of addressing environmental impacts and ensuring responsible sourcing will be key to the future of quartzite as a vital resource in the global economy.

**Quartzite in Brazil**

Brazil has significant potential for quartzite production, leveraging its status as the largest global supplier of this highly sought-after natural stone. In 2023, Brazil accounted for over 35% of the world's quartzite supply, making it a critical player in the global market for this material, which is prized for its aesthetic appeal and durability in construction and design applications. The country's geological diversity, with over 1,200 varieties of natural stones, enhances its competitive edge, particularly in the quartzite segment, which remains the most popular choice among architects and designers.

The quartzite industry in Brazil is poised for growth, driven by increasing demand in both domestic and international markets. In 2023, the Brazilian natural stone sector exported approximately $1.11 billion, with quartzite being a significant contributor to this figure.

**<u>Our Mineral Property – Quartzite</u>**

<u>Project </u> <u>Mineral Right Number</u> <u>Area (size in hectares)</u> <u>Mineral</u> <u>Municipalities</u> <u>State, Country</u> <br> Quartzite Project 831.665/2016 94.44 quartzite Augusto de Lima, Diamantina Minas Gerais, Brazil

*<u>Mineral Right 831.665/2016</u>*

Current Status: Mining concession, the highest title of mineral property in Brazil.

![](formf-1_039.jpg)

Figure 117 – Map of Mineral Right 831.665/2016.

**<u>Quartzite Project</u>**

Our Quartzite Project is in the rural zone of Conselheiro Mata, a district in the municipality of Diamantina (population: 47,702 according to 2022 census), in the state of Minas Gerais in Brazil. Diamantina offers all the basic infrastructure needs such as labor and supplies. Belo Horizonte, the capital of Minas Gerais, and where we have our principal place of business, is 172 miles away.

In 2019, we made the discovery of a quartzite outcrop in one of our mineral rights while searching for gold.

In 2020, we studied the quartzite outcrop with rotary drilling in which we obtained a preliminary volumetric estimate of four deposits of quartzite which had been identified within the project's mineral right. Such geological studies, drilling campaign, and volumetric estimates were not carried out under Regulation S-K 1300.

In 2021, Yan Taffner Binda, a mining engineer with vast experience in quartzite who meets the "Qualified Person" criteria under Regulation S-K 1300, prepared the mining plan for an open pit quarry for our Quartzite Project.

In 2021, Geoline, an independent engineering and environmental licensing consultancy, performed the field studies needed to file our petition to the applicable regulatory body for an operational license. The filing of such a permit occurred in August 2021. On April 4, 2022, our Quartzite Project received the necessary permit from the Brazilian mining department ("ANM"). On December 12, 2022, our Quartzite Project received the operational license from the state of Minas Gerais environmental department ("SUPRAM"). These approvals from ANM and SUPRAM have allowed the Quartzite Project to begin its operations and to be able to commercialize production.

Preparation of the site for operations of the Quarry began in June 2023. The first quartzite block was retrieved on August 31, 2023. For the period between September 1, 2023, and December 31, 2023, a mining trial period, the Quarry team was comprised of one manager, one supervisor, and five mine workers. The processing was done by cutting the blocks with diamond wire. The blocks produced had dimensions varying between 6 m<sup>3</sup> and 12 m<sup>3</sup>.

For the trial mining period between August 31, 2023, and December 31, 2023, a total of 223.10 cubic meters (m<sup>3</sup>) of quartzite blocks were produced and 80.82 m<sup>3</sup>were sold to independent third parties from Brazil and Italy for an aggregate total revenue of $107,540.81.

The net results of the trial mining were fully charged to the profit and loss of the period.

In 2024, our quartzite operation generated gross revenues of $748,654 and gross margins of $265,694 or 35.49%. During 2024, our quartzite operation produced 610.09 cubic meters (m<sup>3</sup>) of quartzite blocks and 1,384.92 square meters (m<sup>2</sup>) of polished quartzite slabs, of which 946.49 m<sup>2</sup> were from our own blocks and 438.43 m<sup>2</sup> were from acquired third-party blocks destined only for slab production. During 2024, we sold 550.92 m<sup>3</sup> of blocks and 893.63 m<sup>2</sup> of polished slabs. As of December 31, 2024, our inventory was 147.99 m<sup>3</sup> of blocks and 641.12 m<sup>2</sup> of slabs.

Although we are currently generating revenues from our quartzite operations, our production of unprocessed blocks of quartzite and quartzite slabs is currently paused while we undergo modifications to our operations to address certain identified issues. The primary issue to be resolved is the adoption of an updated drainage plan for the quarry. We have retained an engineering firm to prepare an updated drainage plan for a cost of approximately $2,320, and expect to resume operations by year end 2025.

**<u>Gold</u>**

**Overview**

Currently it is estimated that, of the gold being produced, 50% is used in jewelry, 40% in investments, and 10% in industry. Brazil has been a gold producer for over 200 years. According to the World Gold Council, in 2023, Brazil produced 87 tons of gold and was the 14<sup>th</sup> largest gold producer country. Minas Gerais was the largest gold producing state in the country, accounting for around 30% of the gold output that year according to Statista, a market intelligence firm.

The following represent our gold mineral properties, most of which management currently considers to be material to the Company's business plan; however, the following also includes properties that management currently considers immaterial to our current business development plans; however, as the Company's business develops and economic conditions justify their further development and extraction, we may pursue the further development and extraction of the gold mineral rights that managements consider to be immaterial as of the date of this prospectus. A further description of the Company's immaterial gold mineral rights, including maps showing the locations, is attached as Exhibit 99.1 to this registration statement of which this prospectus forms a part.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| Project | Mineral Right Number | Area (size in hectares) | Mineral | Municipalities | State, Country |
| Alpha Project | 831.942/2016 | 1883.01 | gold | Dionisio, Marlieria, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.140/2019 | 1859.51 | gold | Marlieria, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.141/2019 | 777.94 | gold | Antonio Dias, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.142/2019 | 1294.65 | gold | Antonio Dias, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.143/2019 | 50.68 | gold | Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.144/2019 | 1739.78 | gold | Dionisio, Marlieria, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.145/2019 | 936.01 | gold | Dionisio, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 831.146/2019 | 557.57 | gold | Sao Domingos do Prata | Minas Gerais, Brazil |
| Alpha Project | 830.066/2021 | 1603.58 | gold | Dionisio, Marlieria, Sao Domingos do Prata | Minas Gerais, Brazil |
| Alta Floresta Project | 867.176/2019 | 9740.91 | gold | Peixoto de Azevedo | Mato Grosso, Brazil |
| Alta Floresta Project | 867.173/2019 | 83.99 | gold | Terra Nova do Norte | Mato Grosso, Brazil |
| Alta Floresta Project | 867.174/2019 | 47.55 | gold | Matupa, Nova Guarita | Mato Grosso, Brazil |
| Apui Project | 880.133/2016 | 9325.31 | gold | Apui | Amazonas, Brazil |
| Apui Project | 880.134/2016 | 9391.67 | gold | Apui | Amazonas, Brazil |
| Apui Project | 880.135/2016 | 9340.04 | gold | Apui | Amazonas, Brazil |
| Cavalcante Project | 860.479/2019 | 1930.79 | gold | Parana (TO), Cavalcante (GO) | Goiás and Tocantins, Brazil |
| Paracatu Project | 831.883/2016 | 312.66 | gold | Paracatu | Minas Gerais, Brazil |

---

*<u>Mineral Right 831.942/2016</u>*

Current Status: Exploration Permit, with a final research report filed by us with ANM and under current review.

![A map with a red rectangle AI-generated content may be incorrect.](image_002.jpg)

Figure 118 – Map of Mineral Right 831.942/2016.

 

*<u>Mineral Right 867.176/2019</u>*

Current Status: Exploration Permit, valid until April 2, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the expiration date.

![A map with a red square AI-generated content may be incorrect.](image_018.jpg)

Figure 127 – Map of Mineral Right 867.176/2019.

*<u>Mineral Right 867.173/2019</u>*

Current Status: Exploration Permit, valid until April 2, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the expiration date.

![A map with a red line AI-generated content may be incorrect.](image_023.jpg)

Figure 128 – Map of Mineral Right 867.173/2019.

*<u>Mineral Right 867.174/2019</u>*

Current Status: Exploration Permit, valid until April 2, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![A map of the area AI-generated content may be incorrect.](image_027.jpg)

Figure 129 – Map of Mineral Right 867.174/2019.

*<u>Mineral Right 860.479/2019</u>*

Current Status: Exploration Permit, valid until March 11, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![A map of the ocean AI-generated content may be incorrect.](image_038.jpg)

Figure 133 – Map of Mineral Right 860.479/2019.

**Future Production and Sales**

We expect the demand for critical minerals to be facilitated by Brazil's strong mining tradition and its substantial annual trade with China, the United States, and the European Union. We intend to utilize intermediaries for sales as to focus on our core competencies of exploration and extraction.

**Raw Materials**

We do not have any material dependence on any raw materials or raw material supplier. All of the raw materials that we need are available from numerous suppliers and at market-driven prices.

**Dependence on Licenses, Commercial or Financial Contracts or New Manufacturing Methods**

We depend on licensing at the federal, state, and local level to carry out its mining operations. Such licensing is standard in Brazil for any mining-related activity.

**Intellectual Property**

We do not own or license any intellectual property which we consider to be material.

**Government Regulation**

**Mining Regulation and Compliance**

Mining regulation in Brazil is carried out by the mining department, a federal entity, and each state in Brazil has an office of this federal entity. For each mineral right that we own, we file any paperwork related to it in the office of the mining department in the state in which such mineral right is located. We believe that we maintain a good relationship with the mining department and that our methods of monitoring are adequate for our current needs.

The mining department normally inspects our operations once a year via an unannounced visit. We estimate that it costs us $25,000 to $50,000 annually to maintain compliance with various mining regulations.

**Environmental Regulation and Compliance**

Environmental regulation in Brazil is carried out by a state-level agency, which may have multiple offices, one for each region of the state. For each mineral right that we own, we file any paperwork related to it in the local office of the environmental agency that has the applicable geographical jurisdiction. We believe that we maintain a good relationship with the offices of the environmental agency and believe that our methods of monitoring are adequate for our current needs.

The environmental agency normally inspects our operations once every one or two years which is the standard practice for companies in good standing. We estimate that it costs us $25,000 to $50,000 annually to maintain compliance with various environmental regulations.

Surface disturbance from any open pit mining performed by us is in full compliance with our mining plan as approved by the local regulatory agencies. We regularly restore areas that have been exploited by us. The current environmental regulations state that after all mining has ceased (however long that may take), there would still be five years of available time for any necessary recuperation to be performed. Our mining and recovery processing for diamonds and gold does not use any chemical products. Tests are conducted regularly and there are no records of groundwater contamination that has occurred to date.

The table below presents the principal Federal mining and environmental regulatory laws that are material to our operations.

---

| | |
|:---|:---|
| MINING | MINING |
| Legislative | Description |
| Decree-Law nº. 227, of February, 28 of 1967 | Mining Code – Addresses the topics of mineral prospecting and research, as well as mine development and production and respective costs, as well as the rights and duties of the owners of mineral rights |
| Law nº. 7,990 of 28 December 1989 <br>| Establishes, for the States, Federal District and Municipalities, financial compensation for the result of the exploration of oil or natural gas, of water resources for the purpose of generating electrical energy, of mineral resources in their respective territories |
| Law nº. 8,001 of 13 March 1990 | Defines the percentages for the distribution of financial compensation as set out in Law No. 7,990 of December 28, 1989 |
| DNPM Ordinance nº. 155, of May 12, 2016  | Ordinance consolidates, systematizes and orders the normative acts related to the regiment for the use of mineral resources  |
| Decree nº. 9,406 of June 12 of 2018 | Regulates the Mining Code  |
| ANM Resolution nº. 85, of 12/02/2021 | Provides procedures for the use of waste materials  |

---

---

| | |
|:---|:---|
| ENVIRONMENTAL | ENVIRONMENTAL |
| Ordinary Law No. 6,938, of August 31, 1981 | Provides for the National Environmental Policy, its purposes and formulation mechanisms, and other measures |
| CONAMA Resolution No. 1, of January 23, 1986 | Establishes basic criteria and general guidelines for the Environmental Impact Study – EIA and respective Environmental Impact Report – RIMA |
| Ordinary Law No. 9,985, of July 18, 2000 | Regulates Art. 225, § 1, Items I, II, III and VII of the Constitution of the Federative Republic of Brazil of 1988; institutes the National System of Nature Conservation Units, and provides other measures |
| Law No. 11,428/2004, of December 22, 2006 | Provides for the use and protection of native vegetation in the Atlantic Forest biome |
| Law No. 12,651 of 25 May of 2012  | Provides for the protection of native vegetation (Forest Code)  |

---

The table below presents the state of Minas Gerais mining and environmental regulatory laws that are material to our operations:

---

| | |
|:---|:---|
| Legislation | Description |
| ENVIRONMENTAL | ENVIRONMENTAL |
| COPAM Normative Resolution No. 94, of April 12, 2006 <br>| Establishes guidelines and procedures for the application of environmental compensation for projects considered to have a significant environmental impact, as set out in Law No. 9,985 of July 18, 2000 |
| Law No. 21,972, of January 21, 2016 | Provides for the State Environmental and Water Resources System – Sisema, among other measures |
| COPAM Normative Resolution No. 217 of December 6, 2017 <br>| It establishes criteria for classification, according to size and polluting potential, as well as the locational criteria to be used to define the environmental licensing modalities for enterprises and activities that use environmental resources in the state of Minas Gerais, among other provisions  |
| Decree No. 47,383, of March 2, 2018 <br>| Establishes standards for environmental licensing, typifies and classifies violations of environmental and water resource protection standards, and establishes administrative procedures for monitoring and applying penalties. Repeals Decree No. 44,844 of June 25, 2008, and Decree No. 46,967 of March 10, 2016 |
| COPAM Normative Resolution No. 220, of March 21, 2018 <br>| Establishes guidelines and procedures for the temporary suspension of mining activity and mine closure; establishes criteria for the preparation and presentation of the report on the Suspension of Mining Activity, the Degraded Areas Recovery Plan - PRAD and the Mine Closure Environmental Plan – PAFEM, among other measures |
| Decree No. 47,705, of September 4, 2019 | Establishes standards and procedures for the regularization of the use of water resources under the jurisdiction of the state of Minas Gerais |
| Decree No. 47,749, of November 11, 2019 <br>| Provides for the authorization processes for environmental intervention and forestry production within the state of Minas Gerais and other provisions. This decree fully repeals Decree No. 43,710/2004 |

---

**<u>Organizational Structure</u>**

We are affiliated with Atlas Lithium, and our Founder, Chief Executive Officer and Chairman, Marc Fogassa, is also the Chief Executive Officer and Chairman of Atlas Lithium. As of [●], 2025, Atlas Lithium and Mr. Fogassa owned 30.6% and 35.2% of our outstanding common stock, respectively, such that Mr. Fogassa controlled approximately 83.3% of the voting power of our outstanding securities. For more information, see "*Major Shareholders."*

Our subsidiaries as of the date of this Prospectus are set forth below:

---

| | | |
|:---|:---|:---|
| Subsidiary Name | Country of Incorporation | Company Ownership Interest |
| Mineração Jupiter Ltda | Brazil | 99.99% |
| Mineração Apollo Ltda | Brazil | 100% |
| Mineração Duas Barras Ltda | Brazil | 100% |
| RST Recursos Minerais Ltda | Brazil | 100% |

---

**Employees and Independent Contractors**

As of the date of this prospectus, we have 13 full-time employees. We also retain consultants to provide specific services deemed necessary. We consider our employee relations to be very good.

**Property, Plants and Equipment.**

As of December 31, 2024, we had 9 different facilities in Brazil, as detailed below:

● 4
 rural properties (1 owned by us and 3 leased) totaling approximately 132 hectares;

● 1
 leased sample storage shed of approximately 180 square meters;

● 2
 houses for employee accommodation totaling approximately 330 square meters;

● 1
 office for operational facilities of 120 square meters; and

● 1
 corporate office of 531 square meters.

**Form and Year of Organization & History to Date**

We were originally incorporated in Republic of the Marshall Islands on July 27, 2016, under the name "Jupiter Gold Corporation," and on December 20, 2024, we changed our name to Atlas Critical Minerals Corporation. Our principal place of business is located at Rua Antônio de Albuquerque, 156, Suite 1720, Belo Horizonte, Minas Gerais, Brazil, 30112-010. Our telephone number is (888) 412-0210 and our website address is www.atlascriticalminerals.com. The information contained on our website is not incorporated by reference into this prospectus, and you should not consider any information contained on, or that can be accessed through, our website as part of this prospectus or in deciding whether to purchase our common stock.

**Legal Proceedings**

We are not a party to any material legal proceedings.

**SENIOR MANAGEMENT AND DIRECTORS**

The following table sets forth certain information as of the date of this prospectus, concerning our directors and executive officers:

---

| | | |
|:---|:---|:---|
| **Name** | **Age** | **Position** |
| **Marc Fogassa** | 58 | Chairman of the Board of Directors and Chief Executive Officer |
| **Rodrigo Nazareth Menck** | 49 | Chief Financial Officer and Treasurer |
| **Joel de Paiva Monteiro, Esq.** | 35 | Vice-President of Administration and Operations, Secretary and Director |
| **Areli Nogueira da Silva Júnior** | 44 | Vice-President, Mineral Exploration and Director |
| **Brian W. Bernier** | 67 | Vice-President, Corporate Development and Investor Relations |
| **Agenor Narcizo Drumond de Cuculicchio, Esq.** | 52 | Independent Director, and member of the Audit, the Compensation, and the Nominating and Governance Committees of the Board of Directors |
| **Gabriel Santos Cordeiro de Andrade, Esq.** | 45 | Independent Director, and member of the Audit, the Compensation, and the Nominating and Governance Committees of the Board of Directors |

---

Executive officers are appointed by and serve at the pleasure of our Board of Directors. A biography of each director and officer follows.

***Marc Fogassa*** is our Founder and has been our Chairman and Chief Executive Officer since July 2016. He has lengthy experience in executive management for mining projects, as well as in venture capital and capital markets, and has served on boards of directors of multiple private companies. Mr. Fogassa double majored at the Massachusetts Institute of Technology (M.I.T.), graduating with two Bachelor of Science degrees in 1990. He later graduated from the Harvard Medical School with a Doctor of Medicine degree in 1995, and also from the Harvard Business School with a Master in Business Administration degree in 1999. Mr. Fogassa was born in Brazil and is fluent in Portuguese and English. Mr. Fogassa is also the Chairman and Chief Executive Officer of Atlas Lithium, a related party.

We selected Mr. Fogassa to serve on our Board due to his in-depth and practical experience in capital markets, as well as his knowledge of the issues, opportunities and risks facing the Company, and its business and industry, as a result of his extensive experience operating mining projects in Brazil.

***Rodrigo Menck*** was appointed our Chief Financial Officer in September 2024. Mr. Menck is currently a director of Atlas Lithium, a related party. Since September 2023 he has been an advisor to Atlas Lithium covering a range of topics, including operational readiness and interface with institutional investors. Previously, from January 2023 to July 2023, Mr. Menck was the Chief Financial Officer of Sigma Lithium Corp., a Canadian publicly listed company ("Sigma"). Between February 2019 and July 2022, Mr. Menck held the position of Senior Vice President of Finance & Group CFO at Nexa Resources SA, a NYSE and TSX listed company, controlled by the traditional Brazilian group Votorantim. From April 2016 to January 2019, he was the Global Treasurer at Nexa Resources. From January 2011 to March 2016, Mr. Menck was an Investment Director at the Odebrecht group in Brazil. From May 2008 to January 2011 Mr. Menck held positions at Braskem SA, a large Brazilian petrochemical company. From January 1996 to May 2008, Mr. Menck had a 12-year career in several Brazilian and international banks based in Brazil, such as BankBoston, Banco Francês e Brasileiro, WestLB, Citibank and BNP Paribas, holding several different positions such as Trader, Trade Finance Manager, Securitization Officer, Product Manager, DCM & Export Finance Structurer and Relationship Manager, while covering a variety of clients in a diverse range of segments in Brazil. Mr. Menck has a degree in Business Administration, and an MBA in Economics of the Financial Sector, both from the University of São Paulo in Brazil. Mr. Menck is fluent in Portuguese, English and Spanish and is a Certified CFO by the Brazilian Institute of Financial Executives in Brazil.

***Joel de Paiva Monteiro, Esq.*** has served as our director since 2018. Mr. Monteiro has been a consultant to us since 2017 and became our Vice-President, Administration and Operations, in 2020. Previously he was a partner of the Brazilian law firm PRA Advogados - Pimenta da Rocha Andrade, with three offices and headquarters in Belo Horizonte, state of Minas Gerais. Mr. Monteiro has worked with all aspects of Brazilian business law, and has extensive experience in a wide range of areas from strategic business planning to litigation. His prior clients included large corporations in a variety of economic sectors in diverse states in Brazil. Mr. Monteiro has a law degree from the Milton Campos Faculty in Belo Horizonte, Brazil. Subsequently he achieved a post-graduate degree in Business and Civil Law from the Pontifical Catholic University of Minas Gerais. Mr. Monteiro is also an officer at Atlas Lithium, one of our shareholders, and an officer and a director of Apollo Resources.

We selected Mr. Monteiro to serve on our Board due to his substantial experience in interfacing with municipal, state, and federal government and their regulatory agencies in the context of developing and operating mining projects in Brazil.

***Areli Nogueira da Silva Júnior*** has served as our director since 2019. Mr. Silva Júnior has been a consultant to us since 2018 and became our Vice-President, Mineral Exploration, in 2021. He is the Founder and was the Chief Technical Officer of MineXplore, a consultancy focused on mineral rights in Brazil. Mr. Silva Júnior has been a consultant geologist with GeoEspinhaço, a firm that undertakes geological studies in a variety of minerals across Brazil. Mr. da Silva Júnior has also been a college faculty member teaching geology. Previously, he worked at the Brazilian mining department and before that as a geologist at Usiminas Mineração. Mr. Silva Júnior has a Master of Geology degree from the Federal University of Rio de Janeiro, and an undergraduate degree in Geological Engineering from the School of Mines of the Federal University of Ouro Preto, a premier and the oldest mining-focused college in Brazil. Mr. Silva has been an officer and consultant to Atlas Lithium and Apollo Resources.

We selected Mr. Silva Júnior to serve on our Board due to his substantial experience in the geology of Brazil and the economic attractiveness of various geological formations as well as his extensive contacts in the mining industry.

***Gabriel Santos Cordeiro de Andrade, Esq.*** has served as our director since 2024. Mr. Andrade has been the founder and lead partner of ARM Mentoria Jurídica, a law firm operating in all areas of business law and with offices in Belo Horizonte, the capital of the state of Minas Gerais in Brazil, and in Montes Claros, a large regional center northern Minas Gerais since 2019. Mr. Andrade is particularly involved as lead counsel in complex negotiations including mergers, spin-offs and real estate development operations. From 2007 to 2019, Mr. Andrade was a Partner at PRA Advogados, a law firm where he focused on the management and leadership of high-level legal operations, focusing on business and real estate law. He supervised complex real estate operations, including subdivisions and hotel projects. He was also responsible for the implementation of conciliation and arbitration practices, significantly reducing the time and cost of resolving disputes. Mr. Andrade graduated from Milton Campos Law School in Belo Horizonte with a law degree. He has a postgraduate degree in business law from Pontifical Catholic University of Minas Gerais in Belo Horizonte. Mr. Andrade is a member of our Audit Committee, Compensation Committee, and Nominating and Governance Committee.

We selected Mr. Andrade to serve on our Board due to his substantial experience in mergers and acquisitions and business law in Brazil.

***Agenor Narcizo Drumond Cuculicchio, Esq.*** has served as our director since 2024. Mr. Cuculicchio has been a founding partner of Cuculicchio & Fontes Advogados Associados in Belo Horizonte, a law firm focusing on mining law, including guidance on the legal process to obtain mining titles, concessions, authorizations, and other licenses specific to the mining sector. In 2006, he began his legal activities in mining law, providing advice on mining regulation, due diligence, strategic consultancy, preparation and analysis of contracts and transactions involving mining rights and related to the exploration and use of mineral resources, assistance in the negotiation of mining securities, and defense in all types of administrative and judicial proceedings related to mining infractions. He is currently also dedicated to entrepreneurship in the mineral sector, including being a non-management shareholder in small local mining companies. Mr. Cuculicchio graduated from the Fundação Educacional Monsenhor Messias in Sete Lagoas, Minas Gerais, Brazil. He has a postgraduate degree in civil procedural law from the Elpídio Donizetti Institute in Belo Horizonte. Mr. Cuculicchio is a member of our Audit Committee, Compensation Committee, and Nominating and Governance Committee.

We selected Mr. Cuculicchio to serve on our Board due to his substantial experience in mining law in Brazil and his contacts in the mining industry.

***Brian W. Bernier*** has been a consultant to us since 2019 and became our Vice-President, Corporate Development and Investor Relations in 2020. Mr. Bernier has worked in the business development and investor relations sector for over three decades and was most recently at a regional investment bank. He graduated with a degree in Management from Boston University. Mr. Bernier has been an officer and consultant to Atlas Lithium and Apollo Resources.

There are no family relationships between or among any of the persons listed above.

**Board Composition**

Our Board of Directors is composed of Messrs. Montiero, Esq., da Silva Júnior, Cuculicchio, Andrade, and Chairman Marc Fogassa.

There are no family relationships among our directors and executive officers. There is no arrangement or understanding between or among our executive officers and directors pursuant to which any director or officer was or is to be selected as a director or officer, and there is no arrangement, plan, or understanding as to whether non-management shareholders will exercise their voting rights to continue to elect the current Board of Directors.

Our directors and executive officers have not, during the past ten years:

● had any bankruptcy petition filed by or against any business of which such person was a general partner or executive officer, either at the time of the bankruptcy or within two years prior to that time,

● been convicted in a criminal proceeding and is not subject to a pending criminal proceeding,

● been subject to any order, judgment, or decree, not subsequently reversed, suspended, or vacated, of any court of competent jurisdiction, permanently, or temporarily enjoining, barring, suspending, or otherwise limiting his involvement in any type of business, securities, futures, commodities, or banking activities; or

● been found by a court of competent jurisdiction (in a civil action), the SEC, or the Commodity Futures Trading Commission to have violated a federal or state securities or commodities law, and the judgment has not been reversed, suspended, or vacated.

**Board Practice**

Our business is managed by the directors who exercise all of our powers, subject to the Business Corporations Act of the Republic of the Marshall Islands, our Amended and Restated Articles of Incorporation (as amended, the "Articles of Incorporation"), our Amended and Restated Bylaws (the "Bylaws"), and any special resolution of the Board of Directors. We also retain various consultants with specific expertise to advise our Board and management.

Our Board of Director is composed of five individuals, as described above. Four of our directors are not U.S. residents. The Board of Directors currently has three board committees: the Audit Committee, the Compensation Committee and the Nomination and Governance Committee. Except for Marc Fogassa, our Chairman, none of our directors' service contracts with us or any of our subsidiaries provide for benefits upon termination of employment.

Our Bylaws provide that each director shall be elected at the annual meeting of our shareholders, to serve until the next annual meeting and until a successor shall have been duly elected and qualified, except in the event of death, resignation, removal or earlier termination of term of office.

**Overview of Corporate Governance**

We are committed to maintaining high standards of business conduct and corporate governance, which we believe are fundamental to the overall success of our business, serving our stockholders well, and maintaining our integrity in the marketplace. As discussed below, our Board of Directors has established three standing committees to assist it in fulfilling its responsibilities to us and our stockholders:

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1. The Audit Committee;

2. The Compensation Committee; and

3. The Nominations and Corporate Governance Committee.

**Director Independence**

We currently have two independent directors on our Board of Directors. We use the definition of "independence" found in the Listing Rules of the Nasdaq Stock Market ("*Nasdaq*") to make this determination. Our Board of Directors has undertaken a review of the independence of each director and will review the independence of any new directors based on information provided by each director concerning their background, employment, and affiliations, in order to make a determination of independence. Our Board of Directors has determined that Messrs. Cuculicchio and Andrade are independent.

**Meetings of the Board of Directors**

No director has attended fewer than 75% of the meetings of our Board. It is the policy of our Board that all directors should attend the annual meeting of shareholders unless unavoidably prevented from doing so by unforeseen circumstances.

**Role of our Board of Directors in Risk Oversight**

One of the key functions of our Board of Directors is informed oversight of our risk management process. As described above, we have formed supporting committees, including the Audit Committee, the Compensation Committee, and the Nominations and Corporate Governance Committee, each of which supports the Board of Directors by addressing risks specific to its respective areas of oversight. In particular, our Audit Committee has the responsibility to consider and discuss our major financial risk exposures and the steps our management takes to monitor and control these exposures, including guidelines and policies to govern the process by which risk assessment and management is undertaken. The Audit Committee also monitors compliance with legal and regulatory requirements, in addition to oversight of the performance of our internal audit function. Our Compensation Committee assesses and monitors whether any of our compensation policies and programs has the potential to encourage excessive risk-taking. Our Nominations and Corporate Governance Committee provides oversight with respect to corporate governance and ethical conduct and monitors the effectiveness of our corporate governance guidelines, including whether such guidelines are successful in preventing illegal or improper liability-creating conduct.

**Committees of our Board of Directors**

Our Board of Directors has established three standing committees- the Audit Committee, the Compensation Committee, and the Nominations and Corporate Governance Committee.

**Audit Committee**

Nasdaq rules require that our Audit Committee be composed of at least three members all of whom are "independent directors" who are "financially literate" as defined under the Nasdaq listing standards. The Nasdaq listing standards define "financially literate" as being able to read and understand fundamental financial statements, including a company's balance sheet, income statement and cash flow statement. In addition, we are required to certify to Nasdaq that the committee has, and will continue to have, at least one member who has past employment experience in finance or accounting, requisite professional certification in accounting, or other comparable experience or background that results in the individual's financial sophistication. As of the date hereof, our Audit Committee was composed of the following, all of whom have been affirmatively determined by our Board of Directors to meet the definition of "independent director" for purposes of serving on an Audit Committee under Rule 10A-3 and Nasdaq rules, all of whom qualify as financial experts:

1. Agenor Narciso Drumond de Cuculicchio, Esq.

2. Gabriel Santos Cordeiro de Andrade, Esq.

3. [●]

Mr. Andrade is an independent member of our Audit Committee who qualifies as an "audit committee financial expert" as defined in Item 407(d)(5) of Regulation S-K.

We have established a written charter for our Audit Committee, in which we set forth the duties of the Audit Committee that include, among other matters, oversight responsibilities with respect to the integrity of our financial statements, our compliance with legal and regulatory requirements, the external auditor's qualifications, independence, and performance, and the performance of our internal audit function as applicable. The Audit Committee's primary duties and responsibilities are to:

● oversee our accounting and financial reporting processes and the audits of our financial statements;

● identify and monitor the management of the principal risks that could impact our financial reporting;

● monitor the integrity of our financial reporting process and system of internal controls regarding financial reporting and accounting appropriateness and compliance;

● provide oversight of the qualifications, independence, and performance of our external auditors and the appointed actuary;

● provide an avenue of communication among the external auditors, the appointed actuary, management, and the Board; and

● review the annual audited and quarterly financial statements with management and the external auditors.

The Audit Committee is also responsible for discussing policies with respect to risk assessment and risk management, including regularly reviewing our cybersecurity and other information technology risks, controls, and procedures and our plans to mitigate cybersecurity risks and respond to data breaches.

**Compensation Committee**

Our Compensation Committee is currently comprised of the following directors, each of whom are independent directors as determined in accordance with the Nasdaq rules:

1. Agenor
 Narcizo Drumond Cuculicchio, Esq.

2. Gabriel
 Santos Cordeiro de Andrade, Esq.

3. [●]

The Compensation Committee's main function is to assist our Board in the discharge of its responsibilities related to the compensation of our executive officers. Pursuant to its charter, the Compensation Committee is primarily responsible for, among other things:

● reviewing our compensation programs and arrangements applicable to our executive officers, including all employment-related agreements or arrangements under which compensatory benefits are awarded or paid to, or earned or received by, our executive officers, and advising management and the Board regarding such programs and arrangements;

● reviewing and recommending to the Board the goals and objectives relevant to CEO compensation, evaluating CEO performance in light of such goals and objectives, and determining CEO compensation based on the evaluation;

● retaining, reviewing and assessing the independence of compensation advisers;

● monitoring issues associated with CEO succession and management development;

● overseeing and administering our equity incentive plans;

● reviewing and making recommendations to our Board with respect to compensation of our executive officers and senior management;

● reviewing and making recommendations to our Board with respect to director compensation;

● endeavoring to ensure that our executive compensation programs are reasonable and appropriate, meet their stated purpose (which, among other things, includes rewarding and creating incentives for individuals and Company performance), and effectively serve the interests of the Company and our stockholders; and

● upon becoming subject to the Exchange Act, preparing and approving an annual report on executive compensation and such other statements to stockholders which are required by the SEC and other governmental bodies.

**Nominating and Governance Committee**

Our Nominating and Governance Committee is currently comprised of the following directors, each of whom are independent directors as determined in accordance with the Nasdaq rules:

1. Agenor
 Narcizo Drumond Cuculicchio, Esq.

2. Gabriel
 Santos Cordeiro de Andrade, Esq.

3. [●]

Pursuant to its charter, the Nominating and Governance Committee is primarily responsible for, among other things:

● assisting the Board in identifying qualified candidates to become directors, and recommending to our Board nominees for election at the next annual meeting of stockholders;

● leading the Board in its annual review of the Board's performance;

● recommending to the Board nominees for each Board committee and each committee Chair;

● reviewing and overseeing matters related to the independence of Board and committee members, in light of the independence requirement of the Nasdaq Stock Market and the rules and regulations of the SEC;

● overseeing the process of succession planning of our CEO and other executive officers; and

● developing and recommending to the Board corporate governance guidelines, including our Code of Business Conduct, applicable to the Company.

**Environmental, Social, and Corporate Governance** 

We are deeply committed to environmental, social, and corporate governance ("ESG") causes. We have an ESG Chief who coordinates our efforts in these important matters. Our efforts make a difference in the communities in which we operate. For example, in the last few years we planted more than 6,000 trees of diverse types for the benefit of local populations in areas in which we operate. We also constructed over 1,000 small retention walls to preserve and enhance dirt access roads used by such communities.

**Our Board**'**s Leadership Structure**

Our Board of Directors has discretion to determine whether to separate or combine the roles of Chairman and Chief Executive Officer. Mr. Fogassa has served in both roles since 2017, and our Board of Directors continues to believe that his combined role is most advantageous to the Company and its stockholders. Mr. Fogassa possesses in-depth knowledge of the issues, opportunities and risks facing us, as well as our business and our industry. Mr. Fogassa is best positioned to fulfill the Chairman's responsibility to develop meeting agendas that focus our Board of Directors' time and attention on critical matters and to facilitate constructive dialogue among our director on strategic issues.

In addition to Mr. Fogassa's leadership, the Board maintains effective independent oversight through a number of governance practices, including open and direct communication with management, input on meeting agendas, and regular executive sessions.

**Code of Business Conduct and Ethics**

We adopted a written code of business conduct and ethics that applies to our directors, officers, and employees, including our principal executive officer, principal financial officer, principal accounting officer or controller, or persons performing similar functions and agents and representatives, including consultants. A copy of the code of business conduct and ethics is available on our website at www.atlascriticalminerals.com. We intend to disclose future amendments to such code, or any waivers of its requirements, applicable to any principal executive officer, principal financial officer, principal accounting officer or controller, or persons performing similar functions or our directors on our website identified above. The inclusion of our website address does not include or incorporate by reference the information on our website into this document.

**Insider Trading Policy**

We have adopted an insider trading policy that governs the trading in our securities by our directors, officers and certain other covered persons, and which is reasonably designed to promote compliance with applicable insider trading laws, rules and regulations, and any listing standards applicable to us.

**Cybersecurity**

As an exploration stage company, we have limited operations and our business activity to date has been identifying, acquiring, and exploring mineral properties. As such, we have not yet adopted formal cybersecurity risk management programs or formal processes for assessing cybersecurity risks. We understand the importance of managing material risks from cybersecurity threats and are committed, as part of our continuing growth, to implementing and maintaining an adequate information security program to manage such risks and safeguard our systems and data.

We currently manage our cybersecurity risk through a variety of practices that are applicable to all users of our information technology and information assets, including our employees and contractors. We use a combination of technology, policies, training, and monitoring to promote security awareness and prevent security incidents.

Due to the early stage of development of our projects, we believe we have limited exposure to cyber threats other than emails and project data storage. Financial transactions are enabled through well-established financial institutions and accounting and employee information storage are outsourced to an external accounting firm.

We have not, as of the date of this prospectus, experienced a cybersecurity threat or incident in the last three years, that materially affected or is reasonably likely to affect our business, results of operations, or financial condition. However, there can be no guarantee that we will not experience such an incident in the future.

Our board of directors oversees cybersecurity risk as part of its role of overseeing enterprise-wide risk.

**Communications with the Board of Directors**

Our Board of Directors desires that the views of our stockholders be heard by the Board, its committees, or individual directors, as applicable, and that appropriate responses be provided to stockholders on a timely basis. Stockholders wishing to formally communicate with our Board, any Board committee, the independent directors as a group, or any individual director, may send communications directly to us at Atlas Critical Minerals Corporation, Rua Antônio de Albuquerque, 156, Suite 1720, Belo Horizonte, Minas Gerais 30.112-010, Brazil, Attention: Secretary. All clearly marked written communications, other than unsolicited advertising or promotional materials, are logged and copied, and forwarded to the director(s) to whom the communication is addressed. Please note that the foregoing communication procedure does not apply to (i) stockholder proposals pursuant to Exchange Act Rule 14a-8 and communications made in connection with such proposals or (ii) service of process or any other notice in a legal proceeding.

**Controlled Company**

Marc Fogassa, our Chief Executive Officer and Chairman, currently controls, directly and indirectly through his ownership of voting securities of Atlas Lithium, approximately 83.3% of the voting power of our capital stock and will control approximately [●]% of the combined voting power of our capital stock upon completion of this offering, and we believe we may be a "controlled company," as such term is defined under the Nasdaq Listing Rules. We currently intend to rely on the controlled company exemptions provided under the Nasdaq Listing Rules.

**Principal Accountant Fees and Services**

Pipara & Co. LLP has served as our independent registered public accounting firm for our financial statements as of December 31, 2024 and has audited our fiscal years ended December 31, 2023 and 2022. This firm billed the following fees to us for professional services related to such date and periods:

---

| | | | |
|:---|:---|:---|:---|
|  | **2024** | **2023** | **2022** |
| Audit Fees | $46500 | 22000 | 8100 |
| Audit-Related Fees |  |  |  |
| Tax Fees |  |  |  |
| All Other Fees |  |  |  |
| **Total** | $46500 | 22000 | 8100 |

---

"Audit Fees" are the aggregate fees billed for the audit of our annual financial statements. This category also includes services that generally the independent accountant provides, such as consents and assistance with and review of documents filed with the SEC.

"Audit-Related Fees" are the aggregate fees billed for assurance and related services that are reasonably related to the performance of the audit and are not reported under Audit Fees. These fees include mainly accounting consultations regarding the accounting treatment of matters that occur in the regular course of business, implications of new accounting pronouncements and other accounting issues that occur from time to time.

"Tax Fees" are the aggregate fees billed for professional services rendered for tax compliance, tax advice, other than in connection with the audit. Tax compliance involves preparation of original and amended tax returns, tax planning and tax advice.

"All Other Fees" are the aggregate fees billed for products and services, other than the services reported on the preceding lines.

All of the audit and non-audit services to us were pre-approved by our Board of Directors.

**Change in Registrant's Certifying Accountant.**

*Dismissal of BF Borgers CPA PC ("Borgers")*

On May 9, 2024, our Board of Directors unanimously voted to dismiss BF Borgers CPA PC as our independent registered public accountant following the SEC's order instituting settled administrative and cease-and-desist proceedings against Borgers and its sole audit partner, Benjamin F. Borgers CPA, permanently barring Mr. Borgers and Borgers (collectively, "BF Borgers") from appearing or practicing before the Commission as an accountant.

BF Borgers' reports on our financial statements as of and for the fiscal years ended December 31, 2023 and December 31, 2022 did not contain any adverse opinion or disclaimer of opinion and were not qualified or modified as to uncertainty, audit scope or accounting principles.

During the fiscal years ended December 31, 2023 and December 31, 2022, and through May 9, 2024 (the date of BF Borgers' dismissal), there were no disagreements with BF Borgers on any matter of accounting principles or practices, financial statement disclosure, or auditing scope or procedure, which if not resolved to BF Borgers' satisfaction would have caused it to make reference thereto in connection with its reports on the financial statements for such year. During the fiscal years ended December 31, 2023, and December 31, 2022, and through May 9, 2024, there were no events of the type described in 16F(a)(1)(v) of Form 20-F.

*Engagement of Pipara & Co. LLP*

On May 18, 2024, our Board of Directors unanimously approved the engagement of Pipara as our independent registered public accounting firm for the fiscal year ending December 31, 2024. The engagement letter with Pipara was signed on May 21, 2024.

During the two most recent fiscal years and in the subsequent interim period through May 21, 2024, neither us nor anyone on our behalf has consulted with Pipara with respect to (i) the application of accounting principles to a specified transaction, either completed or proposed, or the type of audit opinion that would have been rendered on our consolidated financial statements, and neither a written report nor oral advice was provided to us that Pipara concluded was an important factor considered by the Company in reaching a decision as to any accounting, auditing, or financial reporting issue; (ii) any matter that was the subject of a disagreement within the meaning of Item 304(a)(1)(iv) of Regulation S-K; or (iii) any "reportable event" within the meaning of Item 304(a)(1)(v) of Regulation S-K.

**EXECUTIVE AND DIRECTOR COMPENSATION**

***Executive Compensation***

***Compensation of Executive Officers***

This section discusses the material components of the executive compensation program in the fiscal year ended December 31, 2024, for our "executive officers." We have identified the following individuals as our executive officers according to this definition:

---

| | |
|:---|:---|
| **Name** | **Position** |
| **Marc Fogassa** | Chairman of the Board of Directors and Chief Executive Officer |
| **Rodrigo Nazareth Menck** | Chief Financial Officer and Treasurer |
| **Joel de Paiva Monteiro, Esq.** | Vice-President of Administration and Operations, Secretary and Director |
| **Areli Nogueira da Silva Júnior** | Vice-President, Mineral Exploration and Director |
| **Brian W. Bernier** | Vice-President, Corporate Development and Investor Relations |

---

The primary objectives of our executive compensation programs are to attract and retain talented executives to effectively manage and lead us. The compensation packages for the Company's named executive officers generally include a base salary, an annual cash bonus and equity.

**Summary Compensation Table**

---

| | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **Name and Principal Position** | **Year Ended** | **Salary<br> ($)** | **Bonus <br> ($)** | **Option/RSU /Common Stock Awards <br> ($) (1)** |  | **All Other Compensation ($)** |  | **Total <br> ($)** |
| Marc Fogassa | 12/31/2024 | 145890 |  | 572254 | (2) | **-** |  | **718145** |
| Rodrigo Nazareth Menck | 12/31/2024 | 60000 |  | 1656 | (6) | **-** |  | **61656** |
| Joel de Paiva Monteiro, Esq. | 12/31/2024 |  |  | 82000 | (3) |  |  | **82000** |
| Areli Nogueira da Silva Júnior | 12/31/2024 | 75447 |  |  |  |  |  | **75447** |
| Brian W. Bernier | 12/31/2024 |  |  | 60000 | (4) | 52175 | (5) | **112715** |

---

(1) The amounts in this column
 reflect the aggregate grant date fair value of equity instruments granted in 2023 and 2022 to our Chief Executive Officer calculated
 in accordance with FASB ASC Topic 718. Please see Note 6 to the consolidated financial statements for the year ended December 31,
 2024 contained in this prospectus for the assumptions used in the calculation of grant date fair value pursuant to FASB ASC
 Topic 718.

(2) Pursuant to the terms of
 Mr. Fogassa's amended and restated employment agreement, he is entitled to receive an annual compensation for each calendar
 year corresponding to 4% of the outstanding shares of our common stock as of January 1<sup>st</sup> of each year ($432,317
 in 2024). The remaining amount is related to monthly salaries received in shares of our common stock, as stated on Mr.
 Fogassa's amended and restated employment agreement.

(3) Represents Mr. Monteiro's base salary of $2,000 per month fully paid in shares. In 2024, we paid Mr. Monteiro amounts owed from August 2021 to December 2024.

(4) Represents Mr. Bernier's
 base salary of $2,500 per month fully paid in shares. In 2024, we paid Mr. Bernier amounts owed for the period from January
 2023 to December 2024.

(5) Represents Mr. Brian W Bernier's bonus relating to successful fund raisings obtained in 2024.

(6) Mr. Menck received 50,000 restricted stock units ("RSUs") of our common stock. The RSUs are vested 25% annually, starting in September 2024.

***Director Compensation***

The following table sets forth a summary of compensation paid to non-executive directors for the fiscal year ended December 31, 2024. We do not sponsor a pension benefits plan, a non-qualified deferred compensation plan, or a non-equity incentive plan for directors; therefore, these columns have been omitted from the following table. No other or additional compensation for services were paid to any of the directors.

---

| | | | | |
|:---|:---|:---|:---|:---|
| Name | Fees Earned or <br> Paid in Cash<br> ($) | Option<br> Awards<br> ($) | Stock<br> Awards<br> ($) | Total<br> ($) |
| Agenor Narcizo Drumond de Cuculicchio, Esq.(1) | 5301 | $| $3820 | $9121 |
| Gabriel Santos Cordeiro de Andrade, Esq.(2) | 5301 | $| $3820 | $9121 |

---

&nbsp;&nbsp;&nbsp;&nbsp;(1) Mr. Cuculicchio was
 appointed as a member of the Board of Directors in August, 2024. The agreement with Mr. Cuculicchio provides that he is entitled
 to receive quarterly compensation of R$15,000 (approximately $2,630) and shares of the Company's common stock representing
 0.05% of the Company's then issued common stock.

(2) Mr. Andrade was appointed as
 a member of the Board of Directors in August, 2024. The agreement with Mr. Andrade provides that he is entitled to receive
 quarterly compensation of R$15,000 (approximately $2,630) and shares of the Company's common stock representing 0.05% of the
 Company's then issued common stock.

We do not set aside or accrue any amounts to provide pension, retirement or similar benefits to the directors and officers set forth above.

***Employment Agreements***

***Amended and Restated Employment Agreement with Marc Fogassa***

On June 26, 2024, we amended our employment agreement with Marc Fogassa for the Chief Executive Officer position, effective on July 1, 2024. Per agreement, Mr. Fogassa is entitled to receive monthly compensation of $25,000 to be paid in cash or in shares of our common stock and an annual incentive compensation equivalent to 4% of our outstanding common stock count as of January 1.

**RELATED PARTY TRANSACTIONS**

During 2024, we formally memorialized an agreement with Atlas Lithium with respect to an intercompany loan facility between the parties. The loan facility bears annual interest at 6.5% and is payable in full in five years from its beginning. Currently, the Company owes $659,604 to Atlas Lithium (largest amount owed during the period was $851,678 on December 31, 2024). Atlas Lithium currently holds 30.6% of the Company's common stock.

During 2024, we formally entered into a cost sharing agreement with Atlas Lítio do Brasil (a subsidiary of Atlas Lithium) through which the Company borrows resources mainly for Geology-related work. As of December 31, 2024 the Company owes $21,264 to Atlas Lítio do Brasil Ltda arising from the cost sharing agreement.

As of December 31, 2023, we had $674,461 of amounts payable to Mineração Apollo Ltd, an entity wholly owned by Apollo Resources, an affiliate. The loan bore no interest and was fully repaid in 2024.

On October 31, 2024, we entered into an agreement with Atlas Lítio do Brasil Ltda (a subsidiary of Atlas Lithium) to put in place a cost sharing agreement between the parties. The agreement was constructed to rationalize the use of resources from the Geology department between the parties. All shared costs are accrued for on a monthly basis and paid quarterly. Currently, we owe $34,255 to Atlas Lítio do Brasil Ltda.

On July 27, 2016, we entered into a Registration Rights Agreement with Atlas Lithium (f/k/a Brazil Minerals, Inc.) (the "Registration Rights Agreement"). The Registration Rights Agreement provides that whenever we propose to register any of our securities under the Securities Act of 1933, as amended (the "Securities Act") and the registration form to be used may be used for the registration and contemplated disposition of Registrable Securities (defined below) (a "Piggyback Registration"), we will give prompt written notice to Atlas Lithium of our intention to effect such a registration so that such notice is received by Atlas Lithium at least twenty (20) days before the anticipated filing date. We will include in such registration all securities covered by the Registration Rights Agreement ("Registrable Securities") with respect to which we have received a written request for inclusion therein subject to any limitations on the number of shares that may be registered for resale that may be imposed by law, including positions of the staff of the SEC.

In connection with each Piggyback Registration, all of the expenses incurred to register the Registerable Securities, including, without limitation, all registration and filing fees, printing expenses, fees and disbursements of our counsel and our blue sky fees and expenses will be paid by us, and Atlas Lithium shall pay all of the underwriting discounts and selling commissions applicable to the sale of Registrable Securities and all fees and disbursements of counsel for Atlas Lithium attributable to the sale of its securities pursuant to the Piggyback Registration

***Merger Agreement with Apollo Resources Corporation***

On October 31, 2024, we entered an Agreement and Plan of Merger (the "Merger Agreement") with Apollo Resources Corporation, pursuant to which Apollo Resources Corporation merged with and into us (the "Merger"), with us being the surviving entity of the Merger. The Merger was consummated on November 19, 2024 upon the satisfaction of waiver of the closing conditions to the Merger Agreement. For more information, see "*Prospectus Summary - Background*." Apollo Resources was a subsidiary of Atlas Lithium and controlled by Marc Fogassa, CEO and Chairman of the Company.

***Option Agreement with Atlas Lithium Corporation***

On December 18, 2024, we entered into the Option Agreement with Atlas Lithium, pursuant to which we acquired an option to acquire 100% of the equity interests of Brazil Minerals Resources Corporation, a wholly-owned subsidiary of Atlas Lithium Corporation. As consideration for the Option, we issued to Atlas Lithium 797,957 shares of our common stock, representing $500,000 divided by a value per share of $0.6266. For more information, see "*Business – Atlas Lithium Option Agreement.*"

**MAJOR SHAREHOLDERS**

The following table sets forth certain information as of [●], 2025, regarding the beneficial ownership of our common stock by our major shareholders who beneficially own more than 5% of our voting securities. The number and percentage of our common stock beneficially owned by each person is determined in accordance with Rule 13d-3 of the Securities Exchange Act of 1934 (the "Exchange Act"). The information contained in the table below is not necessarily indicative of beneficial ownership for any other purpose.

Beneficial ownership is determined in accordance with the rules of the SEC. In computing the number of shares beneficially owned by a person and the percentage ownership of that person, shares issuable upon the exercise of stock options or warrants or the conversion of other securities held by that person that are exercisable or convertible within 60 days are deemed to be issued and outstanding. These shares, however, are not deemed outstanding for the purposes of computing percentage ownership of each other shareholder.

The following reflects beneficial ownership after this offering based on (i) [●] shares of our common stock to be issued and sold by us in this offering and (ii) [●] shares of common stock outstanding immediately after the completion of this offering, assuming that the underwriters exercise their option in full to purchase up to an additional [●] shares of our common stock from us.

---

| | | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| | **Before Offering** | **Before Offering** | **Before Offering** | **Before Offering** | **Before Offering** | **Before Offering** | **Before Offering** | **Before Offering** | **After Offering** | **After Offering** | **After Offering** | **After Offering** |
| <br>**Name and Address of Officers and Directors (1)** | **Common stock** | **Common stock** | **Common stock** | **Series A Preferred** | **Series A Preferred** | **Series A Preferred** | **Combined voting <br> power** | **Combined voting <br> power** | **Common stock** |  | **Series A Preferred** | **Combined voting <br> power** |
|  | **Number** |  | **%** | **Number** |  | **%** | **Number** | **%** | **Number** | **%** | **Number** | **Number** |
| Marc Fogassa | 23429649 | (2) | 65.8% | 1 | (3) | 100.0% | 12528045 | 83.3% |  |  |  |  |
| Joel de Paiva Monteiro, Esq. | 373031 |  | 1.0% |  |  | 0.0% | 373031 | 0.5% |  |  |  |  |
| Areli Nogueira da Silva Júnior | 7223 |  | 0.0% |  |  | 0.0% | 7223 | 0.0% |  |  |  |  |
| Brian W. Bernier | 310455 |  | 0.9% |  |  | 0.0% | 310455 | 0.4% |  |  |  |  |
| Rodrigo Nazareth Menck |  |  | 0.0% |  |  | 0.0% |  | 0.0% |  |  |  |  |
| Agenor Narcizo Drumond de Cuculicchio, Esq. | 23398 |  | 0.1% |  |  | 0.0% | 23398 | 0.0% |  |  |  |  |
| Gabriel Santos Cordeiro de Andrade, Esq. | 23398 |  | 0.1% |  |  | 0.0% | 23398 | 0.0% |  |  |  |  |
| All Officers and Directors as a group (7 persons) | 13265650 |  | 37.3% | 1 | (3) | 100.0% | 13248670 | 84.2% |  |  |  |  |
| Atlas Lithium Corporation(4) | 10901604 |  | 30.6% |  |  | 0.0% | 10901604 | 15.0% |  |  |  |  |

---

(1) The address for each
 officer and director is: c/o Atlas Critical Minerals Corporation, Rua Antonio de Albuquerque, 156, Suite 1720, Belo Horizonte, MG,
 30.112-010, Brazil.

(2) Includes
 12,528,045 shares owned directly and 10,901,604 shares beneficially owned by Atlas Lithium. Mr. Fogassa is the Chairman
 and Chief Executive Officer of Atlas Lithium, and as a result of his ownership of 65.6% of the combined voting power of Atlas Lithium,
 he may be deemed the beneficial owner of the shares held by Atlas Lithium.

(3) Mr. Fogassa has owned
 the only outstanding share of our Series A Preferred since 2016. The Certificate of Designations, Preferences and Rights of our Series
 A Preferred provides that for so long as Series A Preferred is issued and outstanding, the holders of Series A Preferred shall vote
 together as a single class with the holders of our common stock, with the holders of Series A Preferred being entitled to 51% of
 the total votes on all matters regardless of the actual number of shares of Preferred A Stock then outstanding, and the holders of
 our common stock being entitled to their proportional share of the remaining 49% of the total votes based on their respective voting
 power. Mr. Fogassa is thus deemed to have voting control on all matters requiring a stockholder vote.

(4) Mr. Fogassa controls 65.6% of the combined voting power of Atlas Lithium, and therefore may be
 deemed the beneficial owner of shares held by Atlas Lithium.

As of [●], 2025, there were [●] record holders of our common stock. [●]% of the outstanding shares of common stock were held by stockholders in Brazil. As of [●], 2025, there was one record holder of our Series A Preferred. 100% of the outstanding shares of common stock were held by stockholders in Brazil.

*<u>Major Shareholders - Comparison to Prior Years</u>*

As of December 31, 2023 and December 31, 2022, Mr. Fogassa beneficially owned [●] and [●] shares of our common stock, representing [●]% and [●]% of our total shares then-outstanding, respectively.

As of December 31, 2023 and December 31, 2022, Atlas Lithium beneficially owned 2,652,584 and 2,331,884 shares of our common stock, representing 24.4% and 28.7% of our total shares then-outstanding, respectively.

**DESCRIPTION OF SECURITIES**

**General**

The following description summarizes the most important terms of our capital stock, as they will be in effect upon the closing of this offering. Because it is only a summary, it does not contain all of the information that may be important to you. For a complete description of the matters set forth in this "Description of Securities," you should refer to our Amended and Restated Articles of Incorporation, as amended (our "Articles of Incorporation") and Amended and Restated Bylaws (our "Bylaws"), to be effective immediately prior to the closing of this offering, and the registration rights agreements, each of which will be included as exhibits to the registration statement of which this prospectus forms a part, and to the applicable provisions of Republic of the Marshall Islands law.

Our authorized capital stock consists of 190,000,000 shares of common stock, $0.001 par value per share, and 10,000,000 shares of preferred stock, $0.001 par value per share.

As of [●] 2025, [●] shares of our common stock and one share of our Series A Preferred were issued and outstanding.

**Reverse Stock Split**

We intend to file a Certificate of Amendment to our Articles of Incorporation to effect a reverse stock split of our issued and outstanding shares of common stock at a ratio of 1-for-[●] concurrently with our listing on the Nasdaq Capital Market with no effect on our authorized shares.

**Common Stock**

Each share of our common stock entitles the holder to receive notice of and to attend all meetings of our stockholders with the entitlement to one vote per share of common stock. Holders of common stock are entitled, subject to the rights, privileges, restrictions and conditions attaching to any other class of shares ranking in priority to the common stock, to receive any dividend declared by the Board of Directors. If we are voluntarily or involuntarily liquidated, dissolved or wound-up, the holders of common stock will be entitled to receive, after distribution in full of the preferential amounts, if any, all of the remaining assets available for distribution ratably in proportion to the number of shares of common stock held by them. Holders of common stock have no redemption or conversion rights. The rights, preferences and privileges of holders of shares of common stock are subject to, and may be adversely affected by, the rights of the holders of shares of any series of preferred stock that we may designate and issue in the future.

**Preferred Stock**

We are authorized to issue 10,000,000 shares of Preferred Stock, par value $0.001 per share, in one or more series. Each holder of shares of a series of Preferred Stock shall be entitled to such preferences and rights and be subject to such limitations as our Board of Directors shall determine.

The Board may, with respect to any series of preferred stock, fix by resolution or resolutions the designations and the powers, preferences and relative, participating, optional or other rights and qualifications, limitations or restrictions thereon, including, without limitation, (1) the designation of the series; (2) the number of shares in the series, which the Board of Directors may, except where otherwise provided in the Preferred Shares designation, increase or decrease, but not below the number of shares then outstanding; (3) whether dividends, if any, will be cumulative or non-cumulative and the dividend rate of the series; (4) the dates at which dividends, if any, will be payable; (5) the redemption rights and price or prices, if any, for shares of the series; (6) the terms and amounts of any sinking fund provided for the purchase or redemption of shares of the series; (7) the amounts payable on shares of the series in the event of any voluntary or involuntary liquidation, dissolution or winding-up of the affairs of the Corporation; (8) whether the shares of the series will be convertible into shares of any other class or series, or any other security, of the Corporation or any other corporation, and, if so, the specification of the other class or series or other security, the conversion price or prices or rate or rates, any rate adjustments, the date or dates as of which the shares will be convertible and all other terms and conditions upon which the conversion may be made; (9) conditions or restrictions on the issuance of shares of the same series or of any other class or series of the Preferred Shares; (10) the voting rights, if any, of the holders of the series; and (11) the rights to elect one or more directors of the Corporation. In case the number of shares of any series shall be decreased, the shares constituting such decrease shall resume the status of undesignated Preferred Shares.

*Series A Convertible Preferred Stock*

The holder of the single authorized and outstanding share of our Series A Preferred is entitled to 51% of the total number of votes, voted together with the holders of our common stock as a single class, in connection with the election of directors and all other matters submitted to a vote of shareholders. Whenever the holder of the one share of Series A Preferred is required or permitted to take any action by vote, such action may be taken without a meeting by written consent, setting forth the action so taken and signed by the holder of the outstanding share of Series A Preferred. The holder of our Series A Preferred is not entitled to dividends, except that if a dividend is declared on our common stock, the holder of the Series A Preferred shall participate in such dividend as if such Series A Preferred had been converted into our common stock.

The holder of the Series A Preferred is not entitled to any special redemption rights and there is no sinking fund provision with respect to outstanding shares of our Series A Preferred . In the event of liquidation, the holder of Series A Preferred shall not be entitled to a liquidation preference over the holders of common stock, but shall share pro rata in any sum owed to the holders of our common in connection with a liquidation event as if such Series A Preferred had been converted into common stock.

The Series A Preferred is convertible at any time, upon ten days' notice to us, into one share of our common stock at the option of the Series A Preferred holder.

For as long as there is one share of the Series A Preferred outstanding, the holder of the Series A Preferred shall be entitled to nominate one director to our Board of Directors.

As of the date of this prospectus, only one share of our Series A Preferred has been issued and is outstanding, which share is held by Marc Fogassa, our Chairman and Chief Executive Officer.

*Undesignated Preferred Stock*

As of the date of this prospectus, our Board of Directors has the authority to issue up to 9,999,999 additional shares of preferred stock in one or more series and fix the number of shares constituting any such series, the voting powers, designations, preferences and relative, participating, optional or other special rights and qualifications, limitations or restrictions thereof, including the dividend rights, dividend rate, terms of redemption (including sinking fund provisions), redemption price or prices, conversion rights and liquidation preferences of the shares constituting any series, without any further vote or action by the stockholders. For example, the Board of Directors is authorized to issue preferred stock that would have the right to vote, separately or with any other stockholder of preferred stock, on any proposed amendment to our certificate of incorporation, or on any other proposed corporate action, including business combinations and other transactions.

We will not offer preferred stock unless the offering is approved by a majority of our independent directors. The independent directors will have access, at our expense, to our counsel or independent counsel.

**Options and Warrants**

As of the date of this prospectus, options to purchase up to 236,667 shares of our common stock were issued and outstanding, with a weighted-average time of exercise of 1.85 years, and a weighted-average exercise price of $0.93.

As of the date of this prospectus, the Company does not have any outstanding warrants to purchase shares of our common stock.

**Equity Awards**

During the year ended December 31, 2024, the Company granted Mr. Fogassa as contractual compensation options to purchase an aggregate of 210,000 shares of its common stock. The options issued in 2024 were valued at $41,938 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant $0.74 to $1.00, a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 241% to 312%, risk-free interest rate of 3.88% to 4.64%, and an expected term of five to ten years.

During the year ended December 31, 2023, the Company granted Marc Fogassa as contractual compensation options to purchase an aggregate of 420,000 shares of its common stock. Such awards corresponded to the period between January 1, 2023, to December 31, 2023. The options issued in 2023 were valued at $115,038 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant $0.65 to $2.10, a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 268% to 364%, risk-free interest rate of 3.42% to 4.73%, and an expected term of five to ten years.

During the year ended December 31, 2022, the Company granted officers and directors as contractual compensation options to purchase an aggregate of 420,000 shares of its common stock. Such awards corresponded to the period between January 1, 2022, to December 31, 2022. The options issued in 2022 were valued at $104,140 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant $0.80 to $1.20, a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 295% to 372%, risk-free interest rate of 1.51% to 4.05%, and an expected term of five to ten years.

During the year ended December 31, 2021, the Company granted officers and directors as contractual compensation options to purchase an aggregate of 210,000 shares of its common stock. Such awards corresponded to the period between January 1, 2021, to June 30, 2021; option awards for the period between July 1, 2021 and December 31, 2021 were issued after December 31, 2021. The options issued in 2021 were valued at $56,616 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant ($0.51 to $1.93), a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 169% to 288%, risk-free interest rate of 0.92% to 1.75%, and an expected term of five to ten years.

**Registration and Piggyback Rights**

Atlas Lithium is contractually entitled to certain "piggyback" registration rights, as described above. The piggyback registration rights are not applicable to certain shares that may be sold pursuant to Rule 144 of the Securities Act and shares that are subject to an effective registration statement. The piggyback registration rights are subject to customary underwriter cutbacks applicable to all holders of registration rights, pursuant to which the underwriters of any underwritten offering will have the right to limit the number of shares having registration rights to be included in such registration statement.

**Transfer Agent**

The transfer agent and registrar for our common stock is West Coast Stock Transfer, Inc., 721 N. Vulcan Avenue, Suite 106, Encinitas, CA 92024.

**Exchange Listing**

Our common stock is currently quoted on the OTCQB under the symbol "JUPGF." We have applied for listing of our common stock on the Nasdaq Capital Market under the symbol "ATCX." Assuming that our listing application is approved, we anticipate our common stock will begin trading on a Reverse Stock Split-adjusted basis under the new ticker symbol "ATCX" concurrently with the listing of our common stock on Nasdaq. Our common stock may be assigned a new temporary ticker symbol "ATCXD" for the 20 business days following the Reverse Stock Split. On the 21<sup>st</sup> day, it will change back to "ATCX." No assurance can be given that our application will be approved, and we will not consummate this offering unless our common stock is approved for listing on the Nasdaq Capital Market.

**ADDITIONAL INFORMATION**

**Amended and Restated Articles of Incorporation**

Article I, Section 2 of our Articles of Incorporation provides that our purpose is to engage in any lawful act or activity for which corporations may now or hereafter be organized under the Marshall Islands Business Corporations Act.

**Amended and Restated Bylaws**

Our Bylaws provide that the annual meeting of the shareholder shall be on such day within or without the Marshall Islands as the Board of Directors may determine, for the purpose of electing directors and other business as may be properly brought to such meeting.

A special meeting of the shareholders can be called at any time by the Board of Directors, the Chairman, the President, or by shareholders owning not less than 25% of all the outstanding shares entitled to vote at such special meeting.

**Material Contracts.**

The following descriptions of the material provisions of the referenced agreements do not purport to be complete and are subject to and qualified in their entirety by reference to the agreements, which have been filed as exhibits to the registration statement of which this prospectus forms a part.

On July 27, 2016, we entered into a Registration Rights Agreement (as defined herein) with Atlas Lithium, pursuant to which Atlas Lithium will have the right to participate in certain securities registrations under the Securities Act.

On October 31, 2024, we entered into the Merger Agreement with Apollo Resources Corporation, pursuant to which Apollo Resources Corporation merged with and into us, with us being the surviving entity of the Merger. The Merger was consummated on November 19, 2024.

On December 18, 2024, we entered into the Option Agreement with Atlas Lithium, pursuant to which we acquired an option to acquire 100% of the equity interests of Brazil Minerals Resources Corporation, a wholly-owned subsidiary of Atlas Lithium Corporation.

For additional information regarding the Registration Rights Agreement, the Option Agreement and the Merger Agreement, please see "Related Party Transactions."

**Exchange Controls**

Foreign direct investment in Brazil is governed by Law number 14.286 of December 29, 2021 (the "New Foreign Exchange Law"), replacing Brazilian Laws number. 4.131 (1962) and number 11.371 (2006), incorporating crucial amendments. Under the New Foreign Exchange Law, foreign direct investors must adhere to a set of reporting and regulatory obligations.

Foreign investments, whether in the form of portfolio investments or direct investments in the capital market by individuals or entities, are subject to rigorous registration requirements. Portfolio investments, now regulated by Brazil Monetary Council ("CMN") Resolution number 4.373 since March 30, 2015, have introduced changes aimed at facilitating the entry of foreign investors into the Brazilian financial and capital markets.

Non-resident investors are obligated to report their status to the Brazilian Central Bank, appoint a tax representative, and engage a representative in Brazil for service of process in suits under Brazilian Corporate Law. Additionally, investments exceeding U.S.$100,000.00 require prompt reporting to the Brazilian Central Bank through the Foreign Capital Information Reporting System – Foreign Direct Investment within 30 days of funds flowing into Brazil.

The reporting obligations extend to various aspects, including the remittance of profits abroad, the repatriation of capital, and the formalization of reinvestments. Investments are reported in the foreign currency of origin or in Brazilian currency if derived from a non-resident account in Brazil.

Other than such reporting obligations, foreign investment is not subject to government approvals or authorizations and there are no requirements regarding minimum investment or local participation in capital (except in very limited cases such as in regard to financial institutions, insurance companies and other entities subject to specific regulations). Foreign participation, however, is limited (that is, subject to approvals) or forbidden in several sectors.

Foreign investments in currency must be officially channeled through financial institutions duly authorized to deal in foreign exchange. Foreign currency must be converted into Brazilian currency and vice versa through the execution of an exchange contract. Foreign investments may also be made through the contribution of assets and equipment intended for the local production of goods and services.

The role of attorneys-in-fact from the previous legislation has evolved into the appointment of a representative in Brazil. This representative, authorized by the Brazilian Central Bank, assumes responsibility for compliance with registration and reporting requirements.

Remittances abroad, covering the distribution of profits or interest on equity and repatriation of capital, follow a meticulous process involving foreign exchange contracts. These contracts are established between the Brazilian company and an authorized Brazilian commercial bank, reflecting the exchange of Brazilian currency into foreign currency at an agreed-upon rate.

While historical instances, such as the freeze on dividend and capital repatriations in 1989 and 1990, demonstrated the government's use of temporary restrictions to protect foreign currency reserves, the New Foreign Exchange Law provides a framework for potential future restrictions. The likelihood of such restrictions is influenced by factors such as Brazil's foreign currency reserves, availability of foreign currency, debt service burden, policy towards the International Monetary Fund, and broader political constraints.

**Taxation**

Investors should consult their own tax advisor regarding the specific tax consequences of owning and disposing of our common stock, including eligibility for the benefits of any treaty for the avoidance of double taxation, the applicability or effect of any special rules to which they may be subject, and the effect of any state, local, or other tax laws.

*Marshall Islands Tax Considerations*

The following is applicable only to persons who are not citizens of and do not reside in, maintain offices in or engage in business, transactions or operations in the Marshall Islands.

Non-resident shareholders in Marshall Islands are not subject to Marshall Islands stamp, capital gains or other taxes on the purchase, ownership or disposition of our common shares, and will not be required by the Marshall Islands to file a tax return related to our common shares.

**Dividends and Paying Agents**

Not applicable.

**Statement by Experts**

The disclosure of exploration results and resource estimates contained in this prospectus is based on information and supporting documentation prepared by Volodymyr Myadzel, PhD and Orlando Garcia Rocha Filho, who ae qualified persons within the meaning of Regulation S-K 1300. Mr. Myadzel and Mr. Rocha consent to the use of such information in this Prospectus, in the form and context in which it has been presented herein.

Mr. Myadzel is a Principal Geologist of VMG Consultoria e Soluções Ltda., located at Av. do Contorno, 2905, Suite 406, Belo Horizonte, MG 30110-915, Brazil. He graduated with a degree in Geology from Kryvyi Rih National University, Kryvyi Rih, Ukraine in 1999. In addition, he obtained a PhD in Geology from Kryvyi Rih National University, Kryvyi Rih, Ukraine in 2004. He is Member #3974 of the Australasian Institute of Geoscientists. Mr. Myadzel has been working as a Geologist for a total of 26 years since graduation from university. His relevant experience includes modeling and resource and reserve estimation of deposits, prospecting and surveying, geological mapping, mineralogy and petrology of metamorphic rocks and ore deposits, and in particular iron deposits.

Mr. Rocha is a Principal Geologist at RCS Geologia e Meio Ambiente Ltda, located at Rua João Mota, nº 372, Suite 301, Centro, Santa Bárbara, MG 35.960-000, Brazil, since 2011. He graduated in Geology from the Federal University of Rio Grande do Norte, Brazil in 1992. He is Member #20708 of the Geological Association of Canada. He is Member # 3484D/MG of CREA (Regional Council of Engineering and Agronomy) of the state of Minas Gerais in Brazil. Mr. Rocha has been actively working as a Geologist for 32 years. His relevant experience includes modeling and estimating resource and deposit reserves, prospecting and surveying, geological mapping, mineralogy and petrology of metamorphic rocks and ore deposits, particularly of iron ore deposits.

**Documents on Display**

We are subject to the informational requirements of the Exchange Act applicable to foreign private issuers and, in accordance with these requirements, we file reports with the SEC. As a foreign private issuer, we are exempt from the rules under the Exchange Act relating to the furnishing and content of proxy statements, and our officers, directors and principal shareholders are exempt from the reporting and short swing profit recovery provisions contained in Section 16 of the Exchange Act. In addition, we are not required under the Exchange Act to file periodic reports and financial statements with the SEC as frequently or as promptly as U.S. companies whose securities are registered under the Exchange Act.

You may read and copy any documents that we file with the SEC, including this prospectus and the related exhibits, without charge at the web site maintained by the SEC at www.sec.gov.

**Subsidiary Information**

Not applicable.

**Annual Report to Securities Holders**

Not applicable.

**DISCLOSURE OF COMMISSION POSITION ON INDEMNIFICATION OF SECURITIES ACT LIABILITIES**

We have entered into indemnification agreements with each of our directors, executive officers and other key employees. The indemnification agreements will require us to indemnify our directors to the fullest extent permitted by Republic of the Marshall Islands law. We have agreed to indemnify each of our directors and certain officers against certain liabilities, including liabilities under the Securities Act. Insofar as indemnification for liabilities arising under the Securities Act may be permitted to our directors, officers and controlling persons pursuant to the provisions described above, or otherwise, we have been advised that in the opinion of the SEC such indemnification is against public policy as expressed in the Securities Act and is, therefore, unenforceable. In the event that a claim for indemnification against such liabilities (other than our payment of expenses incurred or paid by our director, officer or controlling person in the successful defense of any action, suit or proceeding) is asserted by such director, officer or controlling person in connection with the securities being registered, we will, unless in the opinion of our counsel the matter has been settled by controlling precedent, submit to a court of appropriate jurisdiction the question whether such indemnification by it is against public policy as expressed in the Securities Act and will be governed by the final adjudication of such issue.

**SHARES ELIGIBLE FOR FUTURE SALE**

Future sales of substantial amounts of our common stock in the public market, including shares issued upon the exercise of outstanding options or warrants, or upon debt conversion, or the anticipation of these sales, could adversely affect market prices prevailing from time to time and could impair our ability to raise capital through sales of equity securities.

Upon completion of this offering we estimate that we will have [●] outstanding shares of our common stock, calculated as of the date of this prospectus, assuming no further conversions of preferred stock, no exercise of outstanding options or warrants, and no sale of shares reserved for the underwriters for over-allotment allocation, if any.

**Sale of Restricted Securities**

The shares of our common stock sold pursuant to this offering will be registered under the Securities Act, and therefore freely transferable, except for our affiliates. Our affiliates will be deemed to own "control" securities that are not registered for resale under the registration statement covering this prospectus. Individuals who may be considered our affiliates after this offering include individuals who control, are controlled by or are under common control with us, as those terms generally are interpreted for federal securities law purposes. These individuals may include some or all of our directors and executive officers. Individuals who are our affiliates are not permitted to resell their shares of our common stock unless such shares are separately registered under an effective registration statement under the Securities Act or an exemption from the registration requirements of the Securities Act is available, such as Rule 144.

**Rule 144**

In general, under Rule 144 as currently in effect, a person (or persons whose shares are aggregated), including an affiliate, who beneficially owns "restricted securities" (i.e., securities that are not registered by an effective registration statement) of a "reporting company" may not sell these securities until the person has beneficially owned them for at least six months. Thereafter, affiliates may not sell within any three-month period a number of shares in excess of the greater of: (i) 1% of the then outstanding shares of common stock as shown by the most recent report or statement published by the issuer; and (ii) the average weekly reported trading volume in such securities during the four preceding calendar weeks.

Sales under Rule 144 by our affiliates will also be subject to restrictions relating to manner of sale, notice and the availability of current public information about us and may be affected only through unsolicited brokers' transactions.

Persons not deemed to be affiliates who have beneficially owned "restricted securities" for at least six months but for less than one year may sell these securities, provided that current public information about us is "available," which means that, on the date of sale, we have been subject to the reporting requirements of the Exchange Act for at least 90 days and are current in our Exchange Act filings. After beneficially owning "restricted securities" for one year, our non-affiliates may engage in unlimited re-sales of such securities.

Shares received by our affiliates in this offering or upon exercise of stock options or upon vesting of other equity-linked awards may be "control securities" rather than "restricted securities." "Control securities" are subject to the same volume limitations as "restricted securities" but are not subject to holding period requirements.

One of our directors owns 100% of our outstanding Series A Preferred. At all times, one share of Series A Preferred is convertible, respectively, into one share of our common stock.

**MATERIAL U.S. FEDERAL INCOME TAX CONSIDERATIONS**

The following is a summary of the material U.S. federal income tax considerations relating to the purchase, ownership and disposition of our common stock purchased in this offering, which we refer to as our securities, but is for general information purposes only and does not purport to be a complete analysis of all the potential tax considerations. This summary is based upon the provisions of the Internal Revenue Code of 1986, as amended (the "Code"), existing and proposed Treasury regulations promulgated thereunder, administrative rulings and judicial decisions, all as of the date hereof. These authorities may be changed, possibly retroactively, so as to result in U.S. federal income and estate tax consequences different from those set forth below. There can be no assurance that the Internal Revenue Service (the "IRS") will not challenge one or more of the tax consequences described herein, and we have not obtained, and do not intend to obtain, an opinion of counsel or ruling from the IRS with respect to the U.S. federal income tax considerations relating to the purchase, ownership or disposition of our securities.

This summary does not address any alternative minimum tax considerations, any considerations regarding the tax on net investment income, or the tax considerations arising under the laws of any state, local or non-U.S. jurisdiction, or under any non-income tax laws, including U.S. federal gift and estate tax laws, except to the limited extent set forth below. In addition, this summary does not address tax considerations applicable to an investor's particular circumstances or to investors that may be subject to special tax rules, including, without limitation:

● banks, insurance companies or other financial institutions;

● tax-exempt organizations or governmental organizations;

● regulated investment companies and real estate investment trusts;

● controlled foreign corporations, passive foreign investment companies and corporations that accumulate earnings to avoid U.S. federal income tax;

● brokers or dealers in securities or currencies;

● traders in securities that elect to use a mark-to-market method of accounting for their securities holdings;

● persons that own, or are deemed to own, more than five percent of our capital stock (except to the extent specifically set forth below);

● tax-qualified retirement plans;

● certain former citizens or long-term residents of the United States;

● partnerships or entities or arrangements classified as partnerships for U.S. federal income tax purposes and other pass-through entities (and investors therein);

● persons who hold our securities as a position in a hedging transaction, "straddle," "conversion transaction" or other risk reduction transaction or integrated investment;

● persons who do not hold our securities as a capital asset within the meaning of Section 1221 of the Code; or

● persons deemed to sell our securities under the constructive sale provisions of the Code.

In addition, if a partnership (or entity or arrangement classified as a partnership for U.S. federal income tax purposes) holds our securities, the tax treatment of a partner generally will depend on the status of the partner and upon the activities of the partnership. Accordingly, partnerships that hold our securities, and partners in such partnerships, should consult their tax advisors.

**You are urged to consult your own tax advisors with respect to the application of the U.S. federal income tax laws to your particular situation, as well as any tax consequences of the purchase, ownership and disposition of our securities arising under the U.S. federal estate or gift tax laws or under the laws of any state, local, non-U.S., or other taxing jurisdiction or under any applicable tax treaty.**

**Consequences to U.S. Holders**

The following is a summary of the U.S. federal income tax consequences that will apply to a U.S. holder of our securities. For purposes of this discussion, you are a U.S. holder if, for U.S. federal income tax purposes, you are a beneficial owner of our securities, other than a partnership, that is:

● an individual citizen or resident of the United States;

● a corporation or other entity taxable as a corporation created or organized in the United States or under the laws of the United States, any state thereof or the District of Columbia;

● an estate whose income is subject to U.S. federal income tax regardless of its source; or

● a trust (x) whose administration is subject to the primary supervision of a U.S. court and which has one or more "United States persons" (within the meaning of Section 7701(a)(30) of the Code) who have the authority to control all substantial decisions of the trust or (y) which has made a valid election to be treated as a "United States person."

***Distributions***

As described in the section titled "*Market for Our Common Stock - Dividend Policy*," we have never declared or paid cash dividends on our common stock and do not anticipate paying any dividends on our common stock in the foreseeable future. However, if we do make distributions on our common stock, those payments will constitute dividends for U.S. tax purposes to the extent paid from our current or accumulated earnings and profits, as determined under U.S. federal income tax principles. To the extent those distributions exceed both our current and our accumulated earnings and profits, the excess will constitute a return of capital and will first reduce your basis in our common stock, but not below zero, and then will be treated as gain from the sale of stock as described below under "-*Sale, Exchange or Other Taxable Disposition of Common Stock*."

Dividend income may be taxed to an individual U.S. holder at rates applicable to long-term capital gains, provided that a minimum holding period and other limitations and requirements are satisfied. Any dividends that we pay to a U.S. holder that is a corporation will qualify for a deduction allowed to U.S. corporations in respect of dividends received from other U.S. corporations equal to a portion of any dividends received, subject to generally applicable limitations on that deduction. U.S. holders should consult their own tax advisors regarding the holding period and other requirements that must be satisfied in order to qualify for the reduced tax rate on dividends or the dividends-received deduction.

***Sale, Exchange or Other Taxable Disposition of Common Stock***

A U.S. holder will generally recognize capital gain or loss on the sale, exchange or other taxable disposition of our common stock. The amount of gain or loss will equal the difference between the amount realized on the sale and such U.S. holder's tax basis in such common stock. The amount realized will include the amount of any cash and the fair market value of any other property received in exchange for such common stock. Gain or loss will be long-term capital gain or loss if the U.S. holder has held the common stock for more than one year. Long-term capital gains of non-corporate U.S. holders are generally taxed at preferential rates. The deductibility of capital losses is subject to certain limitations.

**Consequences to Non-U.S. Holders**

The following is a summary of the U.S. federal income tax consequences that will apply to a non-U.S. holder of our securities. A "non-U.S. holder" is a beneficial owner of our securities (other than a partnership or an entity or arrangement treated as a partnership for U.S. federal income tax purposes) that, for U.S. federal income tax purposes, is not a U.S. holder.

***Distributions***

Subject to the discussion below regarding effectively connected income, any dividend paid to a non-U.S. holder generally will be subject to U.S. withholding tax either at a rate of 30% of the gross amount of the dividend or such lower rate as may be specified by an applicable income tax treaty. In order to receive a reduced treaty rate, a non-U.S. holder must provide us with an IRS Form W-8BEN, IRS Form W-8BEN-E or other applicable IRS Form W-8 properly certifying qualification for the reduced rate. These forms must be updated periodically. A non-U.S. holder eligible for a reduced rate of U.S. withholding tax pursuant to an income tax treaty may obtain a refund of any excess amounts withheld by timely filing an appropriate claim for refund with the IRS. If a non-U.S. holder holds our securities through a financial institution or other agent acting on the non-U.S. holder's behalf, the non-U.S. holder will be required to provide appropriate documentation to the agent, which then may be required to provide certification to us or our paying agent, either directly or through other intermediaries.

Dividends received by a non-U.S. holder that are effectively connected with its conduct of a U.S. trade or business (and, if required by an applicable income tax treaty, attributable to a permanent establishment or fixed base maintained by the non-U.S. holder in the United States) are generally exempt from such withholding tax if the non-U.S. holder satisfies certain certification and disclosure requirements. In order to obtain this exemption, the non-U.S. holder must provide us with an IRS Form W-8ECI or other applicable IRS Form W-8 properly certifying such exemption. Such effectively connected dividends, although not subject to withholding tax, are taxed at the same graduated U.S. federal income tax rates applicable to U.S. holders, net of certain deductions and credits. In addition, dividends received by a corporate non-U.S. holder that are effectively connected with its conduct of a U.S. trade or business may also be subject to a branch profits tax at a rate of 30% or such lower rate as may be specified by an applicable income tax treaty. Non-U.S. holders should consult their own tax advisors regarding any applicable tax treaties that may provide for different rules.

***Gain on Sale, Exchange, or other Taxable Disposition of Common Stock***

Subject to the discussion below regarding backup withholding and foreign accounts, a non-U.S. holder generally will not be required to pay U.S. federal income tax on any gain realized upon the sale, exchange or other taxable disposition of our common stock unless:

● the gain is effectively connected with the non-U.S. holder's conduct of a U.S. trade or business (and, if required by an applicable income tax treaty, the gain is attributable to a permanent establishment or fixed base maintained by the non-U.S. holder in the United States);

● the non-U.S. holder is a non-resident alien individual who is present in the United States for a period or periods aggregating 183 days or more during the calendar year in which the sale or disposition occurs and certain other conditions are met; or

● shares of our common stock constitute U.S. real property interests by reason of our status as a "United States real property holding corporation" (a "USRPHC") for U.S. federal income tax purposes at any time within the shorter of the five-year period preceding the non-U.S. holder's disposition of, or the non- U.S. holder's holding period for, our common stock.

We believe that we are not currently and will not become a USRPHC for U.S. federal income tax purposes, and the remainder of this discussion so assumes. However, because the determination of whether we are a USRPHC depends on the fair market value of our U.S. real property relative to the fair market value of our other business assets, there can be no assurance that we will not become a USRPHC in the future. Even if we become a USRPHC, however, as long as our common stock is regularly traded on an established securities market, such common stock will be treated as U.S. real property interests only if the non-U.S. holder actually or constructively hold more than five percent of such regularly traded common stock at any time during the shorter of the five-year period preceding the non-U.S. holder's disposition of, or the non-U.S. holder's holding period for, our common stock.

If the non-U.S. holder is described in the first bullet above, it will be required to pay tax on the net gain derived from the sale, exchange or other taxable disposition under regular graduated U.S. federal income tax rates, and a corporate non-U.S. holder described in the first bullet above also may be subject to the branch profits tax at a rate of 30%, or such lower rate as may be specified by an applicable income tax treaty. An individual non-U.S. holder described in the second bullet above will be required to pay a flat 30% tax (or such lower rate specified by an applicable income tax treaty) on the gain derived from the sale, exchange or other taxable disposition, which gain may be offset by U.S. source capital losses for the year (provided the non-U.S. holder has timely filed U.S. federal income tax returns with respect to such losses). Non-U.S. holders should consult their own tax advisors regarding any applicable income tax or other treaties that may provide for different rules.

***Federal Estate Tax***

Common stock beneficially owned by an individual who is not a citizen or resident of the United States (as defined for U.S. federal estate tax purposes) at the time of their death will generally be includable in the decedent's gross estate for U.S. federal estate tax purposes. Such shares, therefore, may be subject to U.S. federal estate tax, unless an applicable estate tax treaty provides otherwise.

**Backup Withholding and Information Reporting**

Generally, we must report annually to the IRS the amount of dividends paid to you, your name and address and the amount of tax withheld, if any. A similar report will be sent to you. Pursuant to applicable income tax treaties or other agreements, the IRS may make these reports available to tax authorities in your country of residence.

Payments of dividends on or of proceeds from the disposition of our securities made to you may be subject to information reporting and backup withholding at a current rate of 24% unless you establish an exemption, for example, by properly certifying your non-U.S. status on an IRS Form W-8BEN or IRS Form W-8BEN-E or other applicable IRS Form W-8. Notwithstanding the foregoing, backup withholding and information reporting may apply if either we or our paying agent has actual knowledge, or reason to know, that you are a U.S. person.

Backup withholding is not an additional tax; rather, the U.S. federal income tax liability of persons subject to backup withholding will be reduced by the amount of tax withheld. If withholding results in an overpayment of taxes, a refund or credit may generally be obtained from the IRS, provided that the required information is furnished to the IRS in a timely manner.

**Foreign Account Tax Compliance**

The Foreign Account Tax Compliance Act ("FATCA") generally imposes withholding tax at a rate of 30% on dividends on and gross proceeds from the sale or other disposition of our securities paid to a "foreign financial institution" (as specially defined under these rules), unless such institution enters into an agreement with the U.S. government to, among other things, withhold on certain payments and to collect and provide to the U.S. tax authorities substantial information regarding the U.S. account holders of such institution (which includes certain equity and debt holders of such institution, as well as certain account holders that are foreign entities with U.S. owners) or otherwise establishes an exemption. FATCA also generally imposes a U.S. federal withholding tax of 30% on dividends on and gross proceeds from the sale or other disposition of our securities paid to a "non-financial foreign entity" (as specially defined for purposes of these rules) unless such entity provides the withholding agent with a certification identifying certain substantial direct and indirect U.S. owners of the entity, certifies that there are none or otherwise establishes an exemption. The withholding provisions under FATCA generally apply to dividends (including constructive dividends) on our common stock. The Treasury Secretary has issued proposed regulations providing that the withholding provisions under FATCA do not apply with respect to payment of gross proceeds from a sale or other disposition of our common stock, which may be relied upon by taxpayers until final regulations are issued. Under certain circumstances, a non-U.S. holder might be eligible for refunds or credits of such taxes. An intergovernmental agreement between the United States and an applicable foreign country may modify the requirements described in this paragraph. Non-U.S. holders should consult their own tax advisors regarding the possible implications of this legislation on their investment in our securities.

**Each prospective investor should consult its own tax advisor regarding the particular U.S. federal, state and local and non-U.S. tax consequences of purchasing, owning and disposing of our securities, including the consequences of any proposed changes in applicable laws.**

**UNDERWRITING**

We have entered into an underwriting agreement dated [●], 2025 with A.G.P./Alliance Global Partners, 590 Madison Avenue, 28th Floor, New York, NY 10022 (the "Representative"), and Banco Bradesco BBI S.A., Avenida Juscelino Kubitschek, 1,309, 10th Floor, 04543-011 São Paulo, São Paulo, Brazil, as the representatives of the underwriters, with respect to the common stock being offered. Subject to the terms and conditions of the underwriting agreement, we have agreed to sell to the underwriters, and each of the underwriters has agreed to purchase, at the underwritten offering price less the underwriting discounts set forth on the cover page of this prospectus, the number of shares of common stock listed next to its name in the following table:

---

| | |
|:---|:---|
| **Name of Underwriter** | **Number of Shares** |
| A.G.P./Alliance Global Partners |  |
| Banco Bradesco BBI S.A. |  |
| Total |  |

---

The underwriters are committed to purchase all the shares of common stock offered by this prospectus if they purchase any shares of common stock. The underwriters are not obligated to purchase the shares of common stock covered by the underwriters' over-allotment option described below. The underwriters are offering the shares of common stock, subject to prior sale, when, as and if issued to and accepted by it, subject to approval of legal matters by their counsel, and other conditions contained in the underwriting agreement, such as the receipt by the underwriters of officer's certificates and legal opinions. A copy of the underwriting agreement has been filed as an exhibit to the registration statement of which this prospectus is part. Each underwriter reserves the right to withdraw, cancel or modify offers to the public and to reject orders in whole or in part.

Bradesco Securities, Inc. will act as agent of Banco Bradesco BBI S.A. for sales of our Common Shares in the United States of America. Banco Bradesco BBI S.A. is not a broker-dealer registered with the SEC, and therefore may not make any sales of our Common Shares in the United States to U.S. persons. Banco Bradesco BBI S.A. and Bradesco Securities, Inc. are affiliates of Banco Bradesco S.A.

**Over-Allotment Option**

We have granted to the underwriters an option, exercisable no later than 45 calendar days after the date of the underwriting agreement, to purchase up to [●] additional shares of common stock (an amount equal to 15% of the shares sold in the offering, assuming a total of [●] shares of common stock are sold at the underwritten offering price per share of $[●] (the midpoint of the $[●] to $[●] estimated price range of the underwritten offering price)), less underwriting discounts and commissions. The underwriters may exercise this option only to cover over-allotments, if any, made in connection with this offering. To the extent the option is exercised and the conditions of the underwriting agreement are satisfied, we will be obligated to sell to the underwriters, and the underwriters will be obligated to purchase, these additional shares of common stock. The underwriters will offer these additional shares of common stock on the same terms as those on which the other shares of common stock are being offered hereby.

**Discounts, Commissions, and Representative's Warrants**

We have agreed to sell the common stock to the underwriters at a discount equal to seven percent (7.0%) of the aggregate gross proceeds raised in this offering. We have also agreed to (i) grant to the Representative warrants to purchase a number of shares equal to six percent (6.0%) of the total number of shares of common stock sold in this offering at an exercise price equal to 115% of the underwritten offering price in this offering. The Representative's Warrants will be non-exercisable for six months after the date of the commencement of sales in this offering, and will expire five (5) years after such date of the commencement of sales in this offering, in accordance with Financial Industry Regulatory Authority ("FINRA") Rule 5110(e)(1), as more specifically set forth in the following paragraph. The Representative's Warrants will contain provisions for (i) one demand registration for the shares underlying the Representative's Warrants at our expense for a period of five (5) years from the date of the commencement of sales in this offering, in compliance with FINRA Rules 5110(g)(8)(B) and 5110(g)(8)(C), and (ii) unlimited piggyback registration rights for a period of five (5) years after the date of the commencement of sales in this in this offering, at our expense, in compliance with FINRA Rule 5110(g)(8)(D). The number of shares subject to Representative's Warrants outstanding, and the exercise price of those securities, will be adjusted proportionately, as permitted by FINRA Rule 5110(g)(8)(E).

The Representative's Warrants and the shares of common stock underlying the Representative's Warrants have been deemed compensation by FINRA, and are therefore subject to a 180-day lock-up pursuant to FINRA Rule 5110(e)(1). The Representative, or permitted assignees under such rule, may not sell, transfer, assign, pledge, or hypothecate the Representative's Warrants or the securities underlying the Representative's Warrants, nor will the Representative engage in any hedging, short sale, derivative, put, or call transaction that would result in the effective economic disposition of the Representative's Warrants or the underlying shares for a period of 180 days from the date of commencement of sales in this offering.

Additionally, the Representative's Warrants may not be sold transferred, assigned, pledged or hypothecated for a 180-day period following the date of commencement of sales in this offering, except to any underwriter and selected dealer participating in the offering and their bona fide officers or partners. The Representative's Warrants will provide for adjustment in the number and price of the Representative's Warrants and the shares of common stock underlying such Representative's Warrants in the event of recapitalization, merger, stock split or other structural transaction, or a future financing undertaken by us.

The underwriters have advised us that they propose to offer the common stock directly to the public at the underwritten offering price set forth on the cover of this prospectus. In addition, the underwriters may offer some of the shares to other securities dealers at such price less a concession of up to $[●] per share. After this offering to the public, the offering price and other selling terms may be changed by the underwriters without changing our proceeds from the underwriters' purchase of the common stock.

The following table summarizes the underwritten offering price, underwriting commissions, non-accountable expense allowance and proceeds before actual expenses to us assuming both no exercise and full exercise of the underwriters' option to purchase additional shares of common stock. The underwriting discount is equal to the underwritten offering price per share less the amount per share the underwriters pay us for the common stock.

---

| | | | |
|:---|:---|:---|:---|
|  | **Per Share of Common Stock<sup>(1)</sup>** | **Total Without Over**<br> **Allotment** | **Total With Over**<br> **Allotment** |
| Underwritten offering price | $| $| $|
| Underwriting discounts and commissions | $| $| $|
| Non-accountable expense allowance | $| $| $|
| Proceeds, before expenses, to us | $| $| $|

---

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;(1) The fees shown do not include
 the warrant to purchase shares of common stock issuable to the underwriters at closing.

We have agreed to pay the following actual expenses of the underwriters relating to the offering ("*Accountable Expenses*"): (a) reasonable and documented fees and expenses of the representatives' legal counsel incurred in connection with this offering in an amount up to $200,000 and (b) up to $20,000 of the representative's non-accountable expenses, including, but not limited to, IPREO software related expenses, background check(s), tombstones, escrow agent fees, marketing-related expenses (i.e. roadshow, travel, etc.) and any other expenses incurred by the representatives in connection with the transaction.

**Tail Financing**

Following the closing of this offering, the Representative shall be entitled to compensation as described in the paragraphs included above and as calculated in the manner described above, with respect to any public or private offering or other financing or capital-raising transaction of any kind undertaken by us ("Tail Financing") to the extent that such financing is both (i) provided to us by investors that were, during the term of our engagement with the Representative or prior to the Representative's receipt of a termination notice with respect to its engagement and before the end of said term, brought "over-the-wall" by the Representative or were contacted by A.G.P and (ii) such Tail Financing is consummated at any time within the twelve month period following the expiration or termination of the Representative's engagement. Notwithstanding anything to the contrary herein, the compensation due hereunder shall expressly not include any common stock or other of our equity issued to our officers, directors, employees, consultants, or to certain accounts introduced to the Representative by us.

**Lock-Up Agreements**

We and each of our officers, directors, affiliates and certain existing stockholders aggregating at least 5.0% of our outstanding shares have agreed, subject to certain exceptions, not to offer, issue, sell, contract to sell, encumber, grant any option for the sale of or otherwise dispose of any shares of our common stock or other securities convertible into or exercisable or exchangeable for shares of our common stock for a period of 180 days after this offering is completed without the prior written consent of the underwriters.

The underwriters may in their sole discretion and at any time without notice release some or all of the shares subject to lock-up agreements prior to the expiration of the lock-up period. When determining whether or not to release shares from the lock-up agreements, the underwriters will consider, among other factors, the security holder's reasons for requesting the release, the number of shares for which the release is being requested and market conditions at the time.

**Indemnification**

We have agreed to indemnify the underwriters against certain liabilities, including liabilities under the Securities Act, and to contribute to payments that the underwriters may be required to make for these liabilities.

**Listing of our Common Stock**

Our common stock is currently quoted on the OTCQB under the symbol "JUPGF." We have applied for listing of our common stock on the Nasdaq Capital Market under the symbol "ATCX." Assuming that our listing application is approved, we anticipate our common stock will begin trading on a Reverse Stock Split-adjusted basis under the new ticker symbol "ATCX" concurrently with the listing of our common stock on Nasdaq. Our common stock may be assigned a new temporary ticker symbol "ATCXD" for the 20 business days following the Reverse Stock Split. On the 21<sup>st</sup> day, it will change to "ATCX," No assurance can be given that our application will be approved, and we will not consummate this offering unless our common stock is approved for listing on the Nasdaq Capital Market.

**Price Stabilization, Short Positions, and Penalty Bids**

In connection with this offering, the underwriters may engage in transactions that stabilize, maintain or otherwise affect the price of our common stock. Specifically, the underwriters may over-allot in connection with this offering by selling more shares than are set forth on the cover page of this prospectus. This creates a short position in our common stock for an underwriter's own account. The short position may be either a covered short position or a naked short position. In a covered short position, the number of shares common stock over-allotted by the underwriters is not greater than the number of shares of common stock that they may purchase in the over-allotment option. In a naked short position, the number of shares of common stock involved is greater than the number of shares common stock in the over-allotment option. To close out a short position, the underwriters may elect to exercise all or part of the over-allotment option. The underwriters may also elect to stabilize the price of our common stock or reduce any short position by bidding for, and purchasing, common stock in the open market.

The underwriters may also impose a penalty bid. This occurs when a particular underwriter or dealer repays selling concessions allowed to it for distributing a security in this offering because the underwriter repurchases that security in stabilizing or short covering transactions.

Finally, the underwriters may bid for, and purchase, shares of our common stock in market making transactions, including "passive" market making transactions as described below.

These activities may stabilize or maintain the market price of our common stock at a price that is higher than the price that might otherwise exist in the absence of these activities. The underwriters are not required to engage in these activities, and may discontinue any of these activities at any time without notice.

In connection with this offering, the underwriters and selling group members, if any, or their affiliates may engage in passive market making transactions in our common stock immediately prior to the commencement of sales in this offering, in accordance with Rule 103 of Regulation M under the Exchange Act. Rule 103 generally provides that:

● a passive market maker may not affect transactions or display bids for our common stock in excess of the highest independent bid price by persons who are not passive market makers;

● net purchases by a passive market maker on each day are generally limited to 30% of the passive market maker's average daily trading volume in our common stock during a specified two-month prior period or 200 shares, whichever is greater, and must be discontinued when that limit is reached; and

● passive market making bids must be identified as such.

**Electronic Distribution**

A prospectus in electronic format may be made available on a website maintained by the underwriters. The underwriters may agree to allocate a number of shares to underwriters for sale to their online brokerage account holders. Internet distributions will be allocated by the underwriters to underwriters that may make Internet distributions on the same basis as other allocations. In connection with this offering, the underwriters or syndicate members may distribute prospectuses electronically. No forms of electronic prospectus other than prospectuses that are printable as Adobe® PDF will be used in connection with this offering.

The underwriters have informed us that they do not expect to confirm sales of shares offered by this prospectus to accounts over which they exercise discretionary authority.

Other than the prospectus in electronic format, the information on an underwriter's website and any information contained in any other website maintained by the underwriters is not part of the prospectus or the registration statement of which this prospectus forms a part, has not been approved and/or endorsed by us or any underwriter in its capacity as underwriter and should not be relied upon by investors.

**Certain Relationships**

The underwriters and their affiliates are full service financial institutions engaged in various activities, which may include securities trading, commercial and investment banking, financial advisory, investment management, investment research, principal investment, hedging, financing and brokerage activities. The underwriters have in the past, and may in the future, engage in investment banking and other commercial dealings in the ordinary course of business with us or our affiliates. The underwriters have in the past, and may in the future, receive customary fees and commissions for these transactions.

In the ordinary course of their various business activities, the underwriters and their affiliates may make or hold a broad array of investments and actively trade debt and equity securities (or related derivative securities) and financial instruments (including bank loans) for their own account and for the accounts of their customers, and such investment and securities activities may involve securities and/or instruments of the issuer. The underwriters and their affiliates may also make investment recommendations and/or publish or express independent research views in respect of such securities or instruments and may at any time hold, or recommend to clients that it acquires, long and/or short positions in such securities and instruments.

**Offer Restrictions Outside the United States**

Other than in the United States, no action has been taken by us or the underwriters that would permit a public offering of the securities offered by this prospectus in any jurisdiction where action for that purpose is required. The securities offered by this prospectus may not be offered or sold, directly or indirectly, nor may this prospectus or any other offering material or advertisements in connection with the offer and sale of any such securities be distributed or published in any jurisdiction, except under circumstances that will result in compliance with the applicable rules and regulations of that jurisdiction. Persons into whose possession this prospectus comes are advised to inform themselves about and to observe any restrictions relating to the offering and the distribution of this prospectus. This prospectus does not constitute an offer to sell or a solicitation of an offer to buy any securities offered by this prospectus in any jurisdiction in which such an offer or a solicitation is unlawful.

*Brazil*

The offer and sale of the shares of common stock covered by this prospectus will not be carried out by any means that would constitute a public offering in Brazil under Law No. 6,385, dated December 7, 1976, as amended, or under CVM Resolution (Resolução) No. 160, dated July 13, 2022, as amended (which we refer to as "CVM Resolution 160"). The offer and sale of such shares have not been and will not be registered with the Comissão de Valores Mobiliários in Brazil. The shares may not be offered or sold in Brazil except pursuant to an exemption from the registration requirements of applicable Brazilian securities laws. Any representation to the contrary is untruthful.

The shares may be offered or sold in Brazil only to professional investors, as defined in, and in reliance upon, article 11 of CVM Resolution No. 30, dated May 11, 2021, and article 8, item VI, of CVM Resolution 160. This prospectus is being addressed to the addressee personally, and for its sole benefit. Distribution of this prospectus to any other person other than the addressee specified by the underwriters or such addressee's affiliates, representatives, or those persons, if any, retained to advise the addressee, and any disclosure of its contents, is prohibited.

Therefore, as this prospectus does not constitute or form part of any public offering to sell or solicitation of a public offering to buy any shares or assets, the offering and THE SHARES OFFERED HEREBY HAVE NOT BEEN, AND WILL NOT BE, AND MAY NOT BE OFFERED FOR SALE OR SOLD IN BRAZIL EXCEPT IN CIRCUMSTANCES WHICH DO NOT CONSTITUTE A PUBLIC OFFERING OR DISTRIBUTION UNDER BRAZILIAN LAWS AND REGULATIONS. DOCUMENTS RELATING TO THE SHARES, AS WELL AS THE INFORMATION CONTAINED THEREIN, MAY NOT BE SUPPLIED TO THE PUBLIC, AS A PUBLIC OFFERING IN BRAZIL OR BE USED IN CONNECTION WITH ANY OFFER FOR SUBSCRIPTION OR SALE OF THE SHARES TO THE PUBLIC IN BRAZIL.

**EXPENSES RELATED TO THE OFFERING**

The following table sets forth the costs and expenses, other than the underwriting discounts and commissions and expenses, payable by us in connection with this offering. All amounts shown are estimates and subject to future contingencies, except the SEC registration fee, the FINRA filing fee, and the Nasdaq Capital Market entry and listing fee.

---

| | |
|:---|:---|
| **Description** | **Amount** |
| Securities and Exchange Commission registration fee | $— |
| Financial Industry Regulatory Authority filing fee | $\* |
| Nasdaq Capital Market entry and listing fee | $\* |
| Accounting and audit fees and expenses | $\* |
| Legal fees and expenses | $\* |
| Transfer agent fees and expenses | $\* |
| Printing expenses | $\* |
| Miscellaneous | $\* |
| &nbsp;&nbsp;&nbsp;**Total** | $\* |

---

\* To be filed by amendment.

**LEGAL MATTERS**

The validity of the issuance of the shares of common stock covered by this prospectus will be passed upon for us by Seward & Kissel LLP, New York, NY, our Marshall Islands counsel. Blank Rome LLP, New York, New York, is acting as counsel for the underwriters in this offering.

**EXPERTS**

Our condensed consolidated financial statements as of and for the year ended December 31, 2024, 2023 and 2022, appearing in this prospectus, have been audited by Pipara & Co LLP, an independent registered public accounting firm, as set forth in such reports thereon, included herein. Such financial statements are included herein in reliance upon the authority of said firm as experts in auditing and accounting in giving said report.

**INTERESTS OF NAMED EXPERTS AND COUNSEL**

No expert or counsel named in this prospectus as having prepared or certified any part of this prospectus or having given an opinion upon the validity of the securities being registered or upon other legal matters in connection with the registration or offering of the common stock was employed on a contingency basis, or had, or is to receive, in connection with the offering, a substantial interest, direct or indirect, in the registrant. Nor was any such person connected with the registrant as a promoter, managing or principal underwriter, voting trustee, director, officer, or employee.

**ENFORCEABILITY OF CERTAIN CIVIL LIABILITIES**

We are incorporated under the laws of the Republic of the Marshall Islands. A majority of the directors and officers named in the prospectus reside outside the United States. In addition, a substantial portion of the assets and the assets of the directors and officers are located outside the United States. As a result, you may have difficulty serving legal process within the United States upon Atlas Critical Minerals Corporation or any of these persons. You may also have difficulty enforcing, both in and outside the United States, judgments you may obtain in United States courts against Atlas Critical Minerals Corporation or these persons in any action, including actions based upon the civil liability provisions of United States federal or state securities laws. Furthermore, there is substantial doubt that the courts of the Republic of the Marshall Islands would enter judgments in original actions brought in those courts predicated on United States federal or state securities laws. See "*Risk Factors—Risks Relating to the Marshall Islands*."

Insofar as indemnification for liabilities arising under the Securities Act may be permitted to our directors, officers and controlling persons, we have been advised that in the opinion of the SEC such indemnification is against public policy as expressed in the Securities Act and is, therefore, unenforceable.

We have obtained directors' and officers' liability insurance against any liability asserted against such person incurred in the capacity of director or officer or arising out of such status, whether or not we would have the power to indemnify such person.

**WHERE YOU CAN FIND MORE INFORMATION**

We have filed with the SEC a registration statement on Form F-1 under the Securities Act, with respect to the securities offered by this prospectus. This prospectus, which is part of the registration statement, omits certain information, exhibits, schedules and undertakings set forth in the registration statement. For further information pertaining to us and our common stock, reference is made to the registration statement and the exhibits and schedules to the registration statement. Statements contained in this prospectus as to the contents or provisions of any documents referred to in this prospectus are not necessarily complete, and in each instance where a copy of the document has been filed as an exhibit to the registration statement, reference is made to the exhibit for a more complete description of the matters involved. You may read registration statements and certain other filings made with the SEC electronically are publicly available through the SEC's website at <u>https://www.sec.gov</u>.

We file periodic reports, proxy statements, and other information with the SEC in accordance with requirements of the Exchange Act. These periodic reports, proxy statements, and other information are available at the SEC's website address referred to above. In addition, you may request a copy of any of our periodic reports filed with the SEC at no cost, by writing us at the following address:

**Atlas Critical Minerals Corporation**

**Rua Antônio de Albuquerque, 156, Suite 1720**

**Belo Horizonte, Minas Gerais 30.112-010**

**Brazil**

Information contained on our website is not a prospectus and does not constitute a part of this prospectus.

You should rely only on the information contained in or incorporated by reference or provided in this prospectus. We have not authorized anyone else to provide you with different information. We are not making an offer of these securities in any state where the offer is not permitted. You should not assume the information in this prospectus is accurate as of any date other than the date on the front of this prospectus.

**ATLAS CRITICAL MINERALS CORPORATION**

**(f/k/a JUPITER GOLD CORPORATION, INC.)**

**INDEX TO FINANCIAL STATEMENTS**

---

| | |
|:---|:---|
| [Report of Independent Registered Public Accounting Firm](#mi_001) (PCAOB ID: 5041) | F-2 |
| [Consolidated Balance Sheets as of December 31, 2024, 2023 and 2022](#mi_002) | F-3 |
| [Consolidated Statements of Operations and Comprehensive Loss for the Years Ended December 31, 2024, 2023 and 2022](#mi_003) | F-4 |
| [Consolidated Statements of Stockholders' Deficit for the Years Ended December 31, 2024, 2023 and 2022](#mi_004) | F-5 |
| [Consolidated Statements of Cash Flows for the Years Ended December 31, 2024, 2023 and 2022](#mi_005) | F-6 |
| [Notes to the Consolidated Financial Statements](#mi_006) | F-7 |

---

**ATLAS CRITICAL MINERALS CORPORATION**

**FINANCIAL STATEMENTS**

***December 31, 2024 and 2023***

**<u>Report of Independent Registered Public Accounting Firm</u>**

 

*To the Shareholders and the Board of Directors of Atlas Critical Minerals Corporation (ATCX)* 

**Opinion on the Financial Statements** 

We have audited the accompanying consolidated balance sheets of *Atlas Critical Minerals Corporation (ATCX)* and its subsidiaries (the 'Company') as of December 31, 2024, and 2023 and 2022, the related statements of income, changes in stockholders' equity, and cash flows for each of the three years in the period ended December 31, 2024 and December 31, 2023 and December 31, 2022 and the related notes (collectively referred to as the "Consolidated financial statements"). In our opinion, based on our audit, the consolidated financial statements present fairly, in all material respects, the financial position of the Company as of December 31, 2024, and 2023 and 2022 and the results of its operations and its cash flows for each of the three years in the period ended December 31, 2024, December 31, 2023, December 31, 2022 in conformity with accounting principles generally accepted in the United States of America.

**Company's Ability to Continue as a Going Concern**

The Company suffered losses from operations in CY 2024, CY 2023 and CY 2022 and has an accumulated deficiency in the period ended December 31, 2024, and 2023, 2022 that raises substantial doubt about its ability to continue as a going concern. As discussed in Note 1 to the financial statements, the accompanying financial statements have been prepared on a going-concern basis. Management's plans in regard to these matters are also described in Note 1. The financial statements do not include any adjustments that might result from the outcome of this uncertainty.

**Basis for Opinion** 

These financial statements are the responsibility of the Company's management. Our responsibility is to express an opinion on the Company's financial statements based on our audits. We are a public accounting firm registered with the Public Company Accounting Oversight Board (United States) ("PCAOB") and are required to be independent with respect to the Company in accordance with the U.S. federal securities laws and the applicable rules and regulations of the Securities and Exchange Commission and the PCAOB.

We conducted our audits in accordance with the standards of the PCAOB. Those standards require that we plan and perform the audit to obtain reasonable assurance about whether the financial statements are free of material misstatement, whether due to error or fraud. The Company is not required to have, nor were we engaged to perform, an audit of its internal control over financial reporting. As part of our audits, we are required to obtain an understanding of internal control over financial reporting but not for the purpose of expressing an opinion on the effectiveness of the Company's internal control over financial reporting. Accordingly, we express no such opinion.

Our audits included performing procedures to assess the risks of material misstatement of the financial statements, whether due to error or fraud and performing procedures that respond to those risks. Such procedures included examining, on a test basis, evidence regarding the amounts and disclosures in the financial statements. Our audits also included evaluating the accounting principles used and significant estimates made by management, as well as evaluating the overall presentation of the financial statements. We believe that our audits provide a reasonable basis for our opinion.

**Critical Audit Matters**

The critical audit matters communicated below are matters arising from the current period audit of the financial statements that were communicated or required to be communicated to the audit committee and that: (1) relate to accounts or disclosures that are material to the financial statements and (2) involved our especially challenging, subjective, or complex judgments. The communication of critical audit matters does not alter in any way our opinion on the financial statements, taken as a whole, and we are not, by communicating the critical audit matters below, providing separate opinions on the critical audit matters or on the accounts or disclosures to which they relate.

Determination of accounting in an assets acquisition transaction.

As discussed in note 2 to the consolidated financial statement, On November 19, 2024, Jupiter Gold Corporation acquired the assets of Apollo Resource Corporation. Following the acquisition, Jupiter Gold Corporation was renamed Atlas Critical Mineral Corporation. The transaction was accounted for as an asset acquisition between entities under common control in accordance with ASC 805.

We identified the company's determination of the asset acquisition as a Critical Audit Matter due to the significant judgment and estimation involved in valuing the acquired assets and liabilities and assessing whether the transaction qualified as a common control transaction.

The primary procedures we performed to address this critical audit matter included:

&nbsp;&nbsp;&nbsp;&nbsp;1. Our
 audit procedures for this Critical Audit Matter included reviewing the relevant clauses of
 the agreement to evaluate the accounting treatment of the transaction under US GAAP, assessing
 the fair value of acquired assets estimated by management's third-party valuation specialist
 to determine the appropriateness of asset acquisition accounting, verifying the voting rights
 held by management to confirm the transaction qualified as a common control transaction,
 and reviewing the transfer of assets to ensure they were properly recorded at their historical
 value in accordance with ASC 805-50

2. Evaluating
 the appropriateness of disclosures in the financial statements is in accordance with ASC
 805-50 for Acquisition of Assets in Note 2 to the consolidated financial statement.

*/s/ Pipara & Co LLP*

For, Pipara & Co LLP (6841)

We have served as the Company's auditor since 2024

Place: Ahmedabad, India

Date: February 27, 2025

**ATLAS CRITICAL MINERALS CORPORATION**

**CONSOLIDATED BALANCE SHEETS**

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31,**<br>**2024** | **December 31,**<br>**2023** | **December 31,**<br>**2022** |
| **ASSETS** |  |  |  |
| Current assets: |  |  |  |
| &nbsp;&nbsp;&nbsp;Cash and cash equivalents | $396216 | $92813 | $25438 |
| &nbsp;&nbsp;&nbsp;Trade Receivable | $47682 |  |  |
| &nbsp;&nbsp;&nbsp;Taxes recoverable | $26 |  |  |
| &nbsp;&nbsp;&nbsp;Inventories | $171726 |  | $- |
| &nbsp;&nbsp;&nbsp;Other current assets | $47772 | $3621 | - |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current assets | $663422 | $96434 | $25438 |
| Property and equipment, net | 1717488 | 320700 | $41929 |
| Intangible assets, net | - | - | $11499 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total assets | $2380910 | $417134 | $78866 |
| **LIABILITIES AND STOCKHOLDERS' DEFICIT** |  |  |  |
| Current liabilities: |  |  |  |
| &nbsp;&nbsp;&nbsp;Accounts payable | $346346 | $59009 | $20583 |
| &nbsp;&nbsp;&nbsp;Related party transactions | $872942 | $674461 | $- |
| &nbsp;&nbsp;&nbsp;Other current liabilities | $8083 | $648 | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current liabilities | $1227371 | $734118 | $20583 |
| Non Current liabilities: |  |  |  |
| &nbsp;&nbsp;&nbsp;Other non-current liabilities | $33961 | $4729 | - |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total non-current liabilities | $33961 | $4729 | - |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total liabilities | $1261332 | $738847 | $20583 |
| Stockholders' equity: |  |  |  |
| Series A preferred stock, $0.001 par value, 10,000,000 shares authorized; 1 share issued and outstanding |  |  |  |
| Common stock, $0.001 par value, 190,000,000 shares authorized; 33,336,729, 9,674,497 and 8,118,737 shares issued and outstanding as of December 31, 2024, 2023 and 2022, respectively | 33337 | 9674 | 8118 |
| &nbsp;&nbsp;&nbsp;Additional paid-in capital | 10901133 | 3935287 | 3209505 |
| &nbsp;&nbsp;&nbsp;Accumulated other comprehensive loss | (669350) | (66366) | (30877) |
| &nbsp;&nbsp;&nbsp;Accumulated deficit | (9145542) | (4200308) | (3128463) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total stockholders' equity | 1119578 | (321713) | 58283 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total liabilities and stockholders' equity | 2380910 | 417134 | 78866 |

---

The accompanying notes are an integral part of the consolidated financial statements.

**ATLAS CRITICAL MINERALS CORPORATION**

**CONSOLIDATED STATEMENTS OF OPERATIONS AND COMPREHENSIVE LOSS**

---

| | | | |
|:---|:---|:---|:---|
|  | **Year Ended December 31,** | **Year Ended December 31,** | **Year Ended December 31,** |
|  | **2024** | **2023** | **2022** |
| Gross revenues | $748654 | $- | $- |
| Sales deductions | $(81523) | $- | $- |
| Net revenue | $667131 | $- | $- |
| Cost of revenue | $(401437) | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gross profit | $265694 | $- | $- |
| Operating expenses: |  |  |  |
| &nbsp;&nbsp;&nbsp;General and administrative | $(1054124) | $(900493) | $(553235) |
| &nbsp;&nbsp;&nbsp;Stock based compensation | $(849513) | $(115038) | $(104140) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total operating expenses | $(1903637) | $(1015531) | $(657375) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss from operations | $(1637943) | $(1015531) | $(657375) |
| Other (expense) income: |  |  |  |
| &nbsp;&nbsp;&nbsp;Finance results | $(31716) | $(930) |  |
| &nbsp;&nbsp;&nbsp;Other income (expense) | $(24577) | $(55384) | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Other income (expense) | $(56293) | $(56314) | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss before income taxes | $(1694236) | $(1071845) | $(657375) |
| Income taxes | $(18887) | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net loss | $(1713123) | $(1071845) | $(657375) |
| Basic and diluted loss per share |  |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net loss per share | $(0.13) | $(0.12) | $(0.08) |
| Weighted-average number of common shares outstanding: |  |  |  |
| &nbsp;&nbsp;&nbsp;Basic and diluted | 13447169 | 9029706 | 8118737 |
| Comprehensive loss: |  |  |  |
| &nbsp;&nbsp;&nbsp;Net loss | $(1713123) | $(1071845) | $(657375) |
| &nbsp;&nbsp;&nbsp;Foreign currency translation adjustment | $(63575) | $(35489) | $(6950) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Comprehensive loss | $(1776698) | $(1107334) | $(664325) |

---

The accompanying notes are an integral part of the consolidated financial statements.

**ATLAS CRITICAL MINERALS CORPORATION**

**CONSOLIDATED STATEMENTS OF CHANGES IN STOCKHOLDERS' EQUITY**

---

| | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | **Series A Preferred Stock** | **Series A Preferred Stock** | **Common Stock** | **Common Stock** | | | | |
|  | **Shares** | **Value** | **Shares** | **Value** |<br>**Additional Paid-in**<br>**Capital** | **Accumulated**<br>**Other Comprehensive**<br>**Income (Loss)** |<br>**Accumulated**<br>**Deficit** |<br>**Total Stockholders'**<br>**Equity** |
| Balance, December 31, 2021 | 1 | $- | 6148212 | $6148 | $2604701 | $(23927) | $(2471088) | $115834 |
| Issuance of common stock in connection with sales made under private offerings |  |  | 1853626 | $1853 | $488022 | $- | $- | $489875 |
| Stock based compensation |  |  | 116899 | $117 | $116782 | $- | $- | $116899 |
| Change in foreign currency translation |  |  |  | $- | $- | $(6950) | $- | $(6950) |
| Net income (loss) | - | - | - | $- | $- | $- | $(657375) | $(657375) |
| Balance, December 31, 2022 | 1 | $- | 8118737 | $8118 | $3209505 | $(30877) | $(3128463) | $58283 |
| Issuance of common stock in connection with sales made under private offerings |  |  | 827180 | $827 | $611473 | $- | $- | $612300 |
| Stock based compensation |  |  | 728580 | $729 | $114309 | $- | $- | $115038 |
| Change in foreign currency translation |  |  |  | $- | $- | $(35489) | $- | $(35489) |
| Net income (loss) | - | - | - | $- | $- | $- | $(1071845) | $(1071845) |
| Balance, December 31, 2023 | 1 | $- | 9674497 | $9674 | $3935287 | $(66366) | $(4200308) | $(321713) |
| Issuance of common stock in connection with sales made under private offerings |  |  | 3009162 | 3009 | 1579241 |  |  | 1582250 |
| Effects of the merger with Apollo Resources Corp. |  |  | 18472093 | 18472 | 4525774 | (539409) | (3232111) | 772726 |
| Stock based compensation |  |  | 2180977 | 2182 | 860831 |  |  | 863013 |
| Change in foreign currency translation |  |  |  |  |  | (63575) |  | (63575) |
| Net income (loss) |  |  |  |  |  |  | (1713123) | (1713123) |
| Balance, December 31, 2024 | 1 | - | 33336729 | 33337 | 10901133 | (669350) | (9145542) | 1119578 |

---

The accompanying notes are an integral part of the consolidated financial statements.

**ATLAS CRITICAL MINERALS CORPORATION**

**CONSOLIDATED STATEMENTS OF CASH FLOWS** 

---

| | | | |
|:---|:---|:---|:---|
|  | **Year Ended December 31,** | **Year Ended December 31,** | **Year Ended December 31,** |
|  | **2024** | **2023** | **2022** |
| Cash flows from operating activities of continuing operations: |  |  |  |
| &nbsp;&nbsp;&nbsp;Net loss | $(1713123) | $(1071845) | $(657375) |
| &nbsp;&nbsp;&nbsp;Adjustments to reconcile net loss to cash used in operating activities: |  |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Stock based compensation and services | $849513 | $115038 | $104140 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Provisions for Contingencies | $16770 | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Depreciation and amortization | $206 | $- | $12997 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Impairment losses | $- | $56536 |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gain/loss in foreign exchange transactions | $(698) |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Changes in operating assets and liabilities: |  |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Accounts payable | $305214 | $41141 | $6165 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Income taxes, net | $(18887) | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Inventories | $(205128) |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Trade receivable and other assets | $(80815) | $(3566) | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash used in operating activities | $(846948) | $(862696) | $(534073) |
| Cash flows from investing activities: |  |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Cash received from the merger transaction | $2857 |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Acquisition of capital assets | $(156575) | $- | $(10525) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash used in investing activities | $(153718) | $- | $(10525) |
| Cash flows from financing activities: |  |  |  |
| &nbsp;&nbsp;&nbsp;Related party | $(283334) | $638545 | $85203 |
| &nbsp;&nbsp;&nbsp;Net proceeds from sale of common stock | $1595750 | $291600 | $489875 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash provided by financing activities | $1312416 | $930145 | $575078 |
| Effect of exchange rates on cash and cash equivalents | $(8347) | $(74) | $(5891) |
| Net increase in cash and cash equivalents | $303403 | $67375 | $24589 |
| Cash and cash equivalents at beginning of period | $92813 | $25438 | $849 |
| Cash and cash equivalents at end of period | $396216 | $92813 | $25438 |

---

The non-cash impacts of the merger with Apollo did not impact the cash flow statement. Please refer to note 2 for the details of the balances merged into the Company's financial statements.

The accompanying notes are an integral part of the consolidated financial statements.

****

<br> **ATLAS CRITICAL MINERALS CORPORATION**

**NOTES TO THE CONSOLIDATED FINANCIAL STATEMENTS**

**NOTE 1 – ORGANIZATION, BUSINESS AND SUMMARY OF SIGNIFICANT ACCOUNTING POLICIES**

*<u>Organization and Description of Business</u>*

On July 27, 2016, Atlas Critical Minerals Corporation ("Atlas Critical Minerals") was incorporated as Jupiter Gold Corporation ("Jupiter Gold") under the laws of the Republic of the Marshall Islands. Concurrently, Atlas Lithium Corporation ("Atlas Lithium"), a Nevada corporation, exchanged its 99.99% ownership in Mineração Jupiter Ltda ("MJL"), a Brazilian company, for 4,000,000 shares of Jupiter Gold's common stock. Atlas Lithium held an approximate 32.70% interest in the Company as of December 31, 2024. The Company trades on the OTC Markets (OTCQB) under the symbol JUPGF.

On November 6, 2024, the Company and Apollo Resources Corporation, a Republic of the Marshall Islands corporation ("Apollo"), entered into an Agreement and Plan of Merger, which provided for, among other things, the merger of Apollo with and into the Company (the "Merger"), with the Company continuing its corporate existence as the surviving corporation. Prior to the Merger, Apollo Resources was 44.66% owned by Atlas Lithium and 39.87% owned by Marc Fogassa, our Chief Executive Officer and Chairman.

On November 19, 2024, following satisfaction and/or waiver of the closing conditions in the Merger Agreement, including (i) approval of the transactions contemplated under the Merger Agreement by the requisite vote of the shareholders of Jupiter Gold and Apollo, respectively, (ii) Apollo delivering letters of transmittal to the Company completed and executed by Participating Securityholders (as defined in the Merger Agreement) holding at least 95% of the Outstanding Apollo Securities (as defined in the Merger Agreement), which included a waiver of their appraisal or dissenters' rights under the Marshall Islands Business Corporations Act (the "BCA"), and (iii) each of the Company and Apollo having performed or complied in all material respects with all agreements and covenants required by the Merger Agreement on or prior to the Effective Time (as defined in the Merger Agreement), the Merger was consummated and Apollo merged with and into the Company.

In connection with the consummation of the Merger, each share of Outstanding Apollo Securities was cancelled and converted into 6.62 shares of the Company's common stock. In lieu of issuing fractional shares, Apollo shareholders received the nearest whole share of the Company's common stock, rounding up any decimal amount of shares equal to or greater than 0.5. Following the Effective Time, the holders of Outstanding Apollo Securities right before the Effective Time, beneficially owned 59.40% of the Company's outstanding securities.

Following the Merger, the previously subsidiaries of Apollo became subsidiaries of the Company. After the merger, the Company's subsidiaries include the previously held MJL and the acquired through the Merger Mineração Apollo Ltda ("MAL"), Mineração Duas Barras ("MDB") and RST Recursos Minerais ("RST"), each organized under the laws of Brazil and wholly owned by the Company.

On December 20, 2024, the Articles of Incorporation of the Company were amended to change the name of the Company to Atlas Critical Minerals Corporation. This name change was carried out to reflect a broader focus of the Company following its merger with Apollo Resources Corporation.

The Company's mineral properties are in exploration or pre-exploration phases except for the following:

● Rio Piracicaba Iron ore mineral right: located in Rio Piracicaba, in the ore quadrangle in Minas Gerais State, this mining right is fully permitted for an open pit mine operation and a dry processing facility. The Company plans to start mining operations in the mining right in 2025.

● Quartzite: the deposit is also located in Minas Gerais. In 2024, full mining operations were started, producing and selling quartzite blocks and beneficiated slabs to clients in Brazil and abroad. Net revenues generated during the year amounted to $667,131 .

*<u>Basis of Presentation</u>*

The consolidated financial statements of the Company have been prepared in accordance with generally accepted accounting principles ("GAAP") of the United States of America and are expressed in United States dollars. For the years ended December 31, 2024, 2023 and 2022, the consolidated financial statements include the accounts of the Company, its 99.99% owned subsidiary, Mineração Jupiter Ltda and the 100% owned subsidiaries Mineração Apollo Ltda, Mineração Duas Barras Ltda and RST Recursos Minerais Ltda.

All material intercompany accounts and transactions have been eliminated in consolidation.

*<u>Use of Estimates</u>*

The preparation of financial statements in conformity with U.S. GAAP requires management to make estimates and assumptions that affect the reported amounts of assets and liabilities and disclosure of contingencies at the date of the financial statements and the reported amount of revenues and expenses during the reporting period. Actual results may differ from those estimates.

*<u>Going Concern</u>*

The consolidated financial statements have been prepared on a going concern basis which contemplates the realization of assets and the settlement of liabilities in the normal course of business. The Company has limited working capital, has incurred losses since its inception, and has not yet generated material revenues from the sale of its products or services. These factors create substantial doubt about the Company's ability to continue as a going concern. The consolidated financial statements do not include any adjustment that might be necessary if the Company is unable to continue as a going concern.

The ability of the Company to continue as a going concern is dependent on the Company generating cash from its operations, the sale of its stock and/or obtaining debt financing. During the year ended December 31, 2024, the Company funded operations primarily through the sale of equity securities ($1,595,750 in 2024), and cash generated by our quartzite operation (gross profit of $265,694 in 2024). For the next 12 months, management intends to cover any operating losses by using existing cash and cash equivalents, generating cash flow from our quartzite operations and, if necessary, selling its equity securities and obtaining debt financing. There can be no assurance the Company will be successful in these efforts.

*<u>Fair Value of Financial Instruments</u>*

The Company follows the guidance of Accounting Standards Codification ("ASC") Topic 820 – Fair Value Measurement and Disclosure. Fair value is defined as the exit price, or the amount that would be received to sell an asset or paid to transfer a liability in an orderly transaction between market participants as of the measurement date. The guidance also establishes a hierarchy for inputs used in measuring fair value that maximizes the use of observable inputs and minimizes the use of unobservable inputs by requiring that the most observable inputs be used when available. Observable inputs are inputs market participants would use in valuing the asset or liability and are developed based on market data obtained from sources independent of the Company. Unobservable inputs are inputs that reflect the Company's assumptions about the factors market participants would use in valuing the asset or liability. The guidance establishes three levels of inputs that may be used to measure fair value:

Level 1. Observable inputs such as quoted prices in active markets;

Level 2. Inputs, other than the quoted prices in active markets, that are observable either directly or indirectly; and

Level 3. Unobservable inputs in which there is little or no market data, which require the reporting entity to develop its own assumptions.

As of December 31, 2024, the Company did not have any level 2 or 3 assets or liabilities.

the Company's financial instruments consist of cash and cash equivalents, accounts receivable, accounts payable, and accrued expenses. The carrying amount of these financial instruments approximates fair value due to either length of maturity or interest rates that approximate prevailing market rates unless otherwise disclosed in these consolidated financial statements.

*<u>Cash and Cash Equivalents</u>*

The Company considers all highly liquid instruments purchased with a maturity of three months or less to be cash equivalents to the extent that the funds are not being held for investment purposes. Funds held in Brazilian banks are insured up to 250,000 Brazilian Real (approximately $40,373 based on the December 31, 2024 exchange rate).

*<u>Trade Receivable</u>*

Trade receivables represent amounts to be received from clients due to the sale of quartzite products. The Company recognizes it following revenue recognition when control of the product is transferred to customers and the company has an unconditional right to receive payment for it.

Initial recognition is made at fair value, which usually corresponds to the price of the transaction (invoice), and subsequently assessed to determine the recoverability of the amounts in every balance sheet date.

*<u>Inventories</u>*

The Company values its inventories in accordance with ASC 330 - Inventory, which requires that inventories be valued at the lower of cost or market. The cost of inventories is determined using the weighted average cost method.

*<u>Property and Equipment</u>*

Property and equipment are stated at cost. Major improvements and betterments are capitalized. Maintenance and repairs are expensed as incurred. Depreciation is computed using the straight-line method over the estimated useful life. At the time of retirement or other disposition of property and equipment, the cost and accumulated depreciation are removed from the accounts and any resulting gain or loss is reflected in the statements of operations as other gain or loss, net.

The diamond and gold processing plant, facilities and other machinery are depreciated over an estimated useful life of ten years; vehicles are depreciated over an estimated life of five years; and computer and other office equipment over an estimated useful life of three years.

*<u>Mineral Properties</u>*

Costs of exploration, carrying and retaining unproven mineral lease properties are expensed as incurred. Mineral property acquisition costs, including licenses and lease payments, are capitalized. Impairment losses are recorded on mineral properties used in operations when indicators of impairment are present and the undiscounted cash flows estimated to be generated by those assets are less than the assets' carrying amount. The Company did not recognize any impairment losses related to mineral properties held during the years ended December 31, 2024, 2023 and 2022.

For intangible assets purchased in a business combination, the estimated fair values of the assets received are used to establish their recorded values. For intangible assets acquired in a non-monetary exchange, the estimated fair values of the assets transferred (or the estimated fair values of the assets received, if more clearly evident) are used to establish their recorded values, unless the values of neither the assets received nor the assets transferred are determinable within reasonable limits, in which case the assets received are measured based on the carrying values of the assets transferred. Valuation techniques consistent with the market approach, income approach and/or cost approach are used to measure fair value. These rights are held in perpetuity provided the Company remains in compliance with various government regulations and industry requirements.

Mineral properties are amortized throughout the life of the property based on an units-of-production method.

*<u>Revenue recognition</u>*

Revenues from sales are recognized when control of the product is transferred to customers, in accordance with the terms and conditions in each sales contract. Following ASC 606, the Company follows the 5-step model in order to recognize revenue in accordance with the core principle.

*<u>Impairment of Long-Lived Assets</u>*

For long-lived assets, such as property and equipment and intangible assets subject to amortization, the Company continually monitors events and changes in circumstances that could indicate carrying amounts of long-lived assets may not be recoverable. When such events or changes in circumstances are present, the Company assesses the recoverability of long-lived assets by determining whether the carrying value of such assets will be recovered through undiscounted expected future cash flows. If the total of the future undiscounted cash flows is less than the carrying amount of those assets, the Company recognizes an impairment loss based on the excess of the carrying amount over the fair value of the assets. Assets to be disposed of are reported at the lower of the carrying amount or the fair value less costs to sell.

*<u>Stock-Based Compensation</u>*

The Company records stock-based compensation in accordance with ASC Topic 718, Compensation - Stock Compensation. ASC 718 requires companies to measure compensation cost for stock-based employee compensation at fair value at the grant date and recognize the expense over the employee's requisite service period. Under ASC 718, volatility is based on the historical volatility of our stock or the expected volatility of the stock of similar companies. The expected life assumption is primarily based on historical exercise patterns and employee post-vesting termination behavior. The risk-free interest rate for the expected term of the option is based on the U.S. Treasury yield curve in effect at the time of grant.

The Company utilizes the Black-Scholes option-pricing model, which was developed for use in estimating the fair value of options. Option-pricing models require the input of highly complex and subjective variables including the expected life of options granted and the expected volatility of our stock price over a period equal to or greater than the expected life of the options. Because changes in the subjective assumptions can materially affect the estimated value of our employee stock options, it is management's opinion that the Black-Scholes option-pricing model may not provide an accurate measure of the fair value of our employee stock options. Although the fair value of employee stock options is determined in accordance with ASC Topic 718 using an option-pricing model, that value may not be indicative of the fair value observed in a willing buyer/willing seller market transaction.

On June 20, 2018, the FASB issued ASU 2018-07 which simplifies the accounting for share-based payments granted to nonemployees for goods and services. Under the ASU, most of the guidance on such payments to nonemployees would be aligned with the requirements for share-based payments granted to employees. Equity classified share-based payments for employees are fixed at the time of grant. Equity-classified nonemployee share-based payment awards are measured at the grant date of the award which is the same as share-based payments for employees. The Company adopted the requirements of the new rule as of January 1, 2019, the effective date of the new guidance.

*<u>Foreign Currency</u>*

The Company's subsidiaries, MJL, MAL, MDB, and RST, use their local currency (Brazilian Real) as their functional currency. Resulting translation gains or losses are recognized as a component of accumulated other comprehensive income. Transaction gains or losses related to balances denominated in a currency other than the functional currency are recognized in the consolidated statements of operations.

*<u>Basic Earnings (Loss) Per Share</u>*

The Company computes loss per share in accordance with ASC Topic 260, Earnings per Share, which requires presentation of both basic and diluted earnings per share on the face of the statement of operations. Basic loss per share is computed by dividing net loss available to common shareholders by the weighted average number of outstanding common shares during the period. Diluted loss per share gives effect to all dilutive potential common shares outstanding during the period. As of December 31, 2024, the Company's potentially dilutive securities relate to common stock issuable in connection with options. Diluted EPS excludes all dilutive potential shares if their effect is anti-dilutive.

*<u>Recent Accounting Pronouncements</u>*

The Company has implemented all new accounting pronouncements that are in effect and that may impact its financial statements and does not believe that there are any other new pronouncements that have been issued that might have a material impact on its financial position or results of operations except as noted below:

In August 2023, the FASB issued ASU 2023-05, Business Combinations - Joint Venture Formations (Subtopic 805-60): Recognition and Initial Measurement, which clarifies the business combination accounting for joint venture formations. The amendments in the ASU seek to reduce diversity in practice that has resulted from a lack of authoritative guidance regarding the accounting for the formation of joint ventures in separate financial statements. The amendments also seek to clarify the initial measurement of joint venture net assets, including businesses contributed to a joint venture. The guidance is applicable to all entities involved in the formation of a joint venture. The amendments are effective for all joint venture formations with a formation date on or after January 1, 2025. Early adoption and retrospective application of the amendments are permitted. We do not expect adoption of the new guidance to have a material impact on our consolidated financial statements and disclosures.

In November 2023, the FASB issued ASU 2023-07, Segment Reporting (Topic 280): Improvements to Reportable Segment Disclosures, amending reportable segment disclosure requirements to include disclosure of incremental segment information on an annual and interim basis. Among the disclosure enhancements are new disclosures regarding significant segment expenses that are regularly provided to the chief operating decision-maker and included within each reported measure of segment profit or loss, as well as other segment items bridging segment revenue to each reported measure of segment profit or loss. The amendments in ASU 2023-07 are effective for fiscal years beginning after December 15, 2023, and for interim periods within fiscal years beginning after December 15, 2024, and are applied retrospectively. Early adoption is permitted. Management does not expect this new guidance to have any impact on the Company's consolidated financial statements because the Company operates in only one segment (mining), and therefore Segment Reporting does not impact its Financial Statements.

In December 2023, the FASB issued ASU 2023-09, Income Taxes (Topic 740): Improvement to Income Tax Disclosures, amending income tax disclosure requirements for the effective tax rate reconciliation and income taxes paid. The amendments in ASU 2023-09 are effective for fiscal years beginning after December 15, 2024 and are applied prospectively. Early adoption and retrospective application of the amendments are permitted. We do not expect adoption of the new guidance to have a material impact on our consolidated financial statements and disclosures.

In November 2024, the FASB issued ASU 2024-03, Income Statement—Reporting Comprehensive Income—Expense Disaggregation Disclosures (Subtopic 220-40): Disaggregation of Income Statement Expenses. The amendments in this Update require disclosure, in the notes to financial statements, of specified information about certain costs and expenses. The amendments in this Update are effective for annual reporting periods beginning after December 15, 2026, and interim reporting periods beginning after December 15, 2027. Early adoption is permitted. The Company will analyze the impacts of this Update in the upcoming years and anticipate that it will not adopt the Update early.

In November 2024, the FASB issued ASU 2024-04, Debt—Debt with Conversion and Other Options (Subtopic 470-20): Induced Conversions of Convertible Debt Instruments. The Board issued this Update to improve the relevance and consistency in application of the induced conversion guidance in Subtopic 470-20, Debt— Debt with Conversion and Other Options. The amendments in this Update clarify the requirements for determining whether certain settlements of convertible debt instruments should be accounted for as an induced conversion. The amendments in this Update are effective for all entities for annual reporting periods beginning after December 15, 2025, and interim reporting periods within those annual reporting periods. Early adoption is permitted for all entities that have adopted the amendments in Update 2020-06. Management does not expect this new guidance to have any impacts on the Company's consolidated financial statements.

**NOTE 2 – ACCOUNTING IMPACTS ARISING FROM THE MERGER WITH APOLLO**

As discussed in Note 1, Organization and Description of Business, on November 19, 2024, the Company consummated a merger transaction through which Apollo Resources Corporation ("Apollo"), an entity under the same control of the Company, was merged with and into the Company. Such a transfer of net assets between entities under the control of the same parent is referred to under US GAAP as a common-control transaction.

The growing demand for critical minerals needed for clean energy technologies and high-tech applications presents significant long-term opportunities. The Company's goal is to become a leading critical mineral resources company supplying materials for the rapidly growing clean energy technologies. The acquisition of Apollo Resources' mineral rights on critical minerals strengthens the Company's portfolio of critical minerals and improves its position to become a leading supplier in this industry.

The fair value of the net assets acquired was determined at $14 million based on an independent opinion prepared by RPM Global Canada Limited ("RPM").

While a common-control asset acquisition transaction is similar to a business combination for the entity that receives the net assets or equity interests, such a transaction does not meet the definition of a business combination. Acquisition of assets that are under common control are excluded from the scope of the business combinations guidance and are addressed specifically by subsection ASC 805-50, which requires the receiving entity to recognize the net assets received at their historical carrying amounts, as reflected in the ultimate parent's financial statements.

The table below presents the consolidated balance sheet of the Company in the effective date of the merger and the accounting impacts arising from the recognition of the net assets of Apollo at their historical carrying value, as required by ASC 805-50 for common-control transactions:

---

| | | | |
|:---|:---|:---|:---|
|  | **Consolidated**<br>**pre-merger** | **Merged**<br>**entity** | **Consolidated**<br>**post-merger** |
| **ASSETS** |  |  |  |
| Current assets: |  |  |  |
| &nbsp;&nbsp;&nbsp;Cash and cash equivalents | 16648 | 2857 | 19505 |
| &nbsp;&nbsp;&nbsp;Accounts Receivable | 35082 |  | 35082 |
| &nbsp;&nbsp;&nbsp;Taxes recoverable |  | 26 | 26 |
| &nbsp;&nbsp;&nbsp;Inventory | 206510 |  | 206510 |
| &nbsp;&nbsp;&nbsp;Other current assets | 8684 | 22565 | 31249 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current assets | 266924 | 25448 | 292372 |
| &nbsp;&nbsp;&nbsp;Property and equipment, net | 336120 | 1273827 | 1609947 |
| &nbsp;&nbsp;&nbsp;Intangible assets, net | - | - | - |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total assets | 603044 | 1299275 | 1902319 |
| **LIABILITIES AND STOCKHOLDERS' DEFICIT** |  |  |  |
| Current liabilities: |  |  |  |
| &nbsp;&nbsp;&nbsp;Accounts payable and accrued expenses | 49468 | 24215 | 73683 |
| &nbsp;&nbsp;&nbsp;Related party transactions | 279816 | 481815 | 761631 |
| &nbsp;&nbsp;&nbsp;Other current liabilities | 1757 | 6561 | 8318 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current liabilities | 331041 | 512591 | 843632 |
| Non Current liabilities: |  |  |  |
| &nbsp;&nbsp;&nbsp;Other non-current liabilities | 4685 | 13718 | 18403 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current liabilities | 4685 | 13718 | 18403 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total liabilities | 335726 | 526309 | 862035 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total stockholders' equity | 267318 | 772966 | 1040284 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total liabilities and stockholders' equity | 603044 | 1299275 | 1902319 |

---

The table below presents the balance sheet of Atlas Critical Minerals including the acquired assets and assumed liabilities as if the acquisition had occurred in the beginning of the period, compared to the consolidated balance sheet as of December 31, 2024:

**ATLAS CRITICAL MINERALS CORPORATION**

**CONSOLIDATED BALANCE SHEETS**

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
|  | **ATLAS CRITICAL MINERALS CORP <br> December 31,**<br>**2023** | **APOLLO RESOURCES CORP <br> December 31,**<br>**2023** | **INTRAGROUP**<br>**TRANSACTIONS** | **PRO- FORMA CONSOLIDATED <br> December 31,**<br>**2023** | **ATLAS CRITICAL MINERALS CORP <br> December 31,**<br>**2024** |
| **ASSETS** |  |  |  |  |  |
| Current assets: |  |  |  |  |  |
| Cash and cash equivalents | $92813 | $5973 | $- | $98786 | $396216 |
| Accounts Receivable |  |  |  |  | 47682 |
| Taxes recoverable |  |  |  |  | 26 |
| Inventory |  |  |  |  | 171726 |
| Related party transactions |  | 674461 | 674461 |  |  |
| Other current assets | 3621 | 30147 | - | 33768 | 47772 |
| Total current assets | 96434 | 710581 | 674461 | 132554 | 663422 |
| Property and equipment, net | 320700 | 1059862 | - | 1380562 | 1717488 |
| Total assets | 417134 | 1770443 | 674461 | 1513116 | 2380910 |
| **LIABILITIES AND STOCKHOLDERS' DEFICIT** |  |  |  |  |  |
| Current liabilities: |  |  |  |  |  |
| Accounts payable | $59009 | $22601 | $- | $81610 | $346346 |
| Related party transactions | 674461 |  | 674461 |  | 872942 |
| Other current liabilities | 648 | 40951 | - | 41599 | 8083 |
| Total current liabilities | 734118 | 63552 | 674461 | 123209 | 1227371 |
| Non Current liabilities: |  |  |  |  |  |
| Other non-current liabilities | 4729 | 53849 | - | 58578 | 33961 |
| Total current liabilities | 4729 | 53849 | - | 58578 | 33961 |
| Total liabilities | 738847 | 117401 | 674461 | 181787 | 1261332 |
| Total stockholders' equity | (321713) | 1653042 | - | 1331329 | 1119578 |
| Total liabilities and stockholders' equity | 417134 | 1770443 | 674461 | 1513116 | 2380910 |

---

**NOTE 3 – COMPOSITION OF CERTAIN FINANCIAL STATEMENT ITEMS**

*<u>Inventories</u>*

Inventories are composed of quartzite blocks and slabs generated by the cut and polishing process of the blocks. Both products are actively sold in the market, therefore considered finished products:

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31** | **December 31** | **December 31** |
|  | **2024** | **2023** | **2022** |
| Quartzite unprocessed blocks | 116143 |  |  |
| Quartzite processed slabs | 55583 |  |  |
| **Total** | **171726** |  |  |

---

*<u>Property and Equipment, Net</u>*

The following table sets forth the components of the Company's property and equipment as at December 31, 2024, 23 and 2022:

SCHEDULE OF PROPERTY AND EQUIPMENT

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31, 2024** | **December 31, 2024** | **December 31, 2024** |
|  | Cost | Accumulated <br> Depreciation | Net Book <br> Value |
| Computers and office equipment | $5733 |  | $5733 |
| Machinery and equipment (1) | $452205 | (41) | $452165 |
| Mining rights (2) | $1245274 |  | $1245274 |
| Facilities | $14508 | (191) | $14316 |
| Vehicles | $- | - | $- |
| Total fixed assets | $1717720 | (232) | $1717488 |

---

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31, 2023** | **December 31, 2023** | **December 31, 2023** |
|  | Cost | Accumulated <br> Depreciation | Net Book <br> Value |
| Computers and office equipment | $- |  | $- |
| Machinery and equipment | 320700 |  | 320700 |
| Vehicles | - |  | - |
| Total fixed assets | $320700 |  | 320700 |

---

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31, 2022** | **December 31, 2022** | **December 31, 2022** |
|  | Cost | Accumulated <br> Depreciation | Net Book <br> Value |
| Computers and office equipment | $2192 | (2192) | $- |
| Machinery and equipment | 118855 | (76926) | 41929 |
| Vehicles | 42507 | (42507) | - |
| Total fixed assets | $163554 | $(121625) | $41929 |

---

For the years ended December 31, 2024, 2023 and 2022, the Company recorded depreciation expense of $206, $nil and $12,997, respectively.

&nbsp;&nbsp;&nbsp;&nbsp;(1) In
 2024, the Company acquired an excavator to be used in our quartzite operations for
 a total consideration of R$810,000 ($133,424 at
 the date of the transaction). In 2023, the Company acquired a gold processing plant from
 Atlas Lithium at a total price of $320,700 .
 Total paid for the plant acquisition was composed of 320,700 shares
 issued by the Company at $1.00 each.

&nbsp;&nbsp;&nbsp;&nbsp;(2) The
 mining rights addition in 2024 correspond to the impacts of the merger of the Company and
 Apollo. Mining rights are held by the new subsidiary MAL.

In 2023, the Company proceeded to an impairment analysis on its property and equipment and intangibles and concluded that, other than the gold processing plant acquired in 2023, there was no expectation of future economic benefits being generated from the assets use or disposal, affecting the main condition for an asset to be recognized. As a result, an impairment loss of $56,536 was recognized in profit and loss of the period as Other expenses, as demonstrated in the table below:

---

| | | | | |
|:---|:---|:---|:---|:---|
|  | **December 31,**<br>**2022** | **Foreign currency**<br>**translation** | **Impairment**<br>**losses** | **December 31,**<br>**2023** |
| Property and equipment, net | 41929 | 2358 | (44287) |  |
| Intangibles, net | 11499 | 750 | (12249) |  |
|  | 53428 | 3108 | (56536) |  |

---

*<u>Related Party Receivables/Payables</u>*

As of December 31, 2024, there are $872,942 of relating parties outstanding balances, represented by $851,678 of intercompany loans received from Atlas Lithium (which include the impact of interest accrued for in the year ended December 31, 2024 of $10,918 and Nil in the year ended December 31, 2023) and $21,264 payable to Atlas Lítio do Brasil Ltda ("ALB") as a result of a cost sharing agreement through which the Company borrows resources from ALB mainly for Geology-related work.

Additionally, the Company advanced an amount of $9,855 to its CEO, which will be offset against amounts receivable by the CEO in 2025. The amounts are classified as Other current assets in the balance sheet.

As of December 31, 2023, related party payables totaled $647,461, fully owed to MAL, which was an interest-free loan. Following the merger, remaining amounts were eliminated in the consolidation process. As of December 31, 2022, there is no related party outstanding balance.

**NOTE 4 – STOCKHOLDERS' EQUITY**

*<u>Issued and Authorized</u>*

As of December 31, 2024, the Company had 33,336,729 shares of its common stock and 1 share of its preferred stock issued and outstanding. As of December 31, 2023, the Company had 9,674,497 shares of its common stock and 1 share of its preferred stock issued and outstanding. As of December 31, 2024, the Company had 190,000,000 (40,000,000 on December 31, 2023) common shares and 10,000,000 (6,148,212 on December 31, 2023) preferred shares authorized.

*<u>Common Stock</u>*

During the year ended December 31, 2024, the Company issued 23,662,232 shares of common stock, as follows:

---

| | | |
|:---|:---|:---|
|  | **Number of shares** | **Cash received** |
| Shares arising from stock-based compensation to executives | 2180977 | 13500 |
| Issuance of shares in connection with sales made under private offerings | 3009162 | 1582250 |
| Shares issued in connection with the merger | 18472093 | - |
| **Total** | **23662232** | **1595750** |

---

During the year ended December 31, 2023, the Company issued and sold 827,180 shares of common stock for cash proceeds of $612,300.

During the year ended December 31, 2022, the Company issued and sold 1,853,626 shares of common stock for cash proceeds of $489,875.

*<u>Preferred A Stock</u>*

In 2016, the Company issued to Marc Fogassa, its Founder, Chief Executive Officer, and Chairman, one share of a Series A Convertible Preferred Stock ("Preferred A Stock"). The Certificate of Designations, Preferences and Rights of Preferred A Stock provides that for so long as it is issued and outstanding, its holders shall vote together as a single class with the holders of the Company's common stock, with the holders of Preferred A Stock being entitled to 51% of the total votes on all such matters regardless of the actual number of shares of Preferred A Stock then outstanding, and the holders of common stock are entitled to their proportional share of the remaining 49% of the total votes based on their respective voting power.

*<u>Stock Options</u>*

During the year ended December 31, 2024, the Company granted Mr. Fogassa as contractual compensation options to purchase an aggregate of 210,000 shares of its common stock. Such options corresponded to the period between January 1, 2024 to June 30, 2024. The options issued in 2024 were valued at $41,938 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant $0.74 to $1.00, a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 241% to 312%, risk-free interest rate of 3.88% to 4.64%, and an expected term of five to ten years.

During the year ended December 31, 2023, the Company granted Mr. Fogassa as contractual compensation options to purchase an aggregate of 420,000 shares of its common stock. Such awards corresponded to the period between January 1, 2023, to December 31, 2023. The options issued in 2023 were valued at $115,038 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant $0.65 to $2.10, a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 268% to 364%, risk-free interest rate of 3.42% to 4.73%, and an expected term of five to ten years.

During the year ended December 31, 2022, the Company granted officers and directors as contractual compensation options to purchase an aggregate of 420,000 shares of its common stock. Such awards corresponded to the period between January 1, 2022, to December 31, 2022. The options issued in 2022 were valued at $104,140 in total. The options were valued using the Black-Scholes option pricing model with the following average assumptions: our stock price on date of grant $0.80 to $1.20, a strike price of $0.01 to $1.00, illiquidity discount of 75%, expected dividend yield of 0%, annualized volatility of 295% to 372%, risk-free interest rate of 1.51% to 4.05%, and an expected term of five to ten years.

The following table reflects all outstanding and exercisable options on December 31, 2024. All stock options immediately vest and are exercisable for a period of five to ten years from the date of issuance.

SCHEDULE OF STOCK OPTIONS ACTIVITY

---

| | | | |
|:---|:---|:---|:---|
|  |<br>**Number of**<br>**Options**<br>**Outstanding** |<br>**Average Exercise**<br> **Price** | **Average**<br>**Remaining**<br>**Contractual Life**<br>**(Years)** |
| Outstanding, December 31, 2022 | 1905000 | 0.56 | 4.74 |
| Issued in 2023 | 420000 | 0.15 | 8.98 |
| Exercised in 2023 | 1115000 | 0.98 | - |
| Outstanding, December 31, 2023 | 1210000 | 0.04 | 8.22 |
| Issued in 2024 | 376667 | 0.48 | 5.62 |
| Exercised in 2024 | 1350000 | 0.01 | - |
| Outstanding, December 31, 2024 | 236667 | 0.93 | 1.85 |

---

*<u>Stock Warrants</u>*

During the years ended December 31, 2024, 2023 and 2022 the company did not issue any warrants.

*<u>Restricted Stock Units</u>*

During the year ended December 31, 2024, the Company granted RSUs to certain executives of the Company. Each RSU is redeemable for one share of the Company's common stock immediately upon vesting. The RSUs granted with immediate-vesting and time-vesting conditions were as follows:

1) 790,168 RSUs which vested immediately upon grant.

2) 516,471 RSUs which time-vest, being 25% of the RSUs annually vested from 2025 to 2028.

These RSUs granted with immediate-vesting and time-vesting conditions were issued with a total grant date fair value of $460,247, measured using the Company's volume weighted average price trailing to the date the RSU was granted.

**NOTE 5 – SUBSEQUENT EVENTS**

In accordance with FASB ASC 855-10 Subsequent Events, the Company has analyzed its operations subsequent to December 31, 2024 to the date these consolidated financial statements were issued, and has determined that it does not have any material subsequent events to disclose in these consolidated financial statements.

In compliance with the SEC regulation S-X and following the merger with Apollo Resources, the Company presents below Apollo's unaudited consolidated statements of operations and comprehensive loss and the unaudited consolidated cash flow statement for the eleven-month period ended November 30, 2024, as well as Apollo's audited consolidated financial statements for the years ended December 31, 2023 and December 31, 2022.

**APOLLO RESOURCES CORPORATION**

**CONSOLIDATED STATEMENTS OF OPERATIONS AND COMPREHENSIVE LOSS**

---

| | |
|:---|:---|
|  | **Eleven-month period ended November 30,**<br>**2024** |
|  | **(Unaudited)** |
| Revenue |  |
| Cost of revenue | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gross profit | $- |
| Operating expenses: |  |
| &nbsp;&nbsp;&nbsp;General and administrative | $(661493) |
| &nbsp;&nbsp;&nbsp;Stock based compensation | $(938808) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total operating expenses | $(1600301) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss from Operations | $(1600301) |
| Other expense (income): |  |
| &nbsp;&nbsp;&nbsp;Other expense (income) | $110459 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Finance results | $110459 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss before provision for income taxes | $(1489842) |
| Provision for income taxes | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net loss | $1489842 |
| Comprehensive loss: |  |
| &nbsp;&nbsp;&nbsp;Net loss | $1489842 |
| &nbsp;&nbsp;&nbsp;Foreign currency translation adjustment | $333939 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Comprehensive loss | $1823781 |

---

**APOLLO RESOURCES CORPORATION**

**CONSOLIDATED STATEMENTS OF CASH FLOWS** 

---

| | |
|:---|:---|
|  | **Eleven-month period ended November 30,**<br>**2024** |
|  | (Unaudited) |
| Cash flows from operating activities of continuing operations: |  |
| &nbsp;&nbsp;&nbsp;Net loss | $(1489842) |
| &nbsp;&nbsp;&nbsp;Adjustments to reconcile net loss to cash used in operating activities: |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Stock based compensation and services | $938808 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gain/loss on FOREX transactions | $(111991) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Changes in operating assets and liabilities: |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Accounts payable | $(55104) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Accounts receivable and other assets | $1521 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash (used in) operating activities | $(716607) |
| Cash flows from investing activities: |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Related party transactions | $1156276 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Acquisition of capital assets | $(444287) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash provided by investing activities | $711989 |
| Cash flows from financing activities: |  |
| &nbsp;&nbsp;&nbsp;Net proceeds from sale of common stock | $4950 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash provided by financing activities | $4950 |
| Effect of exchange rates on cash and cash equivalents | $(3449) |
| Net decrease in cash and cash equivalents | $(3116) |
| Cash and cash equivalents at beginning of period | $5973 |
| Cash and cash equivalents at end of period | $2857 |

---

**APOLLO RESOURCES CORPORATION**

**FINANCIAL STATEMENTS**

***December 31, 2023 and 2022***

**Report of Independent Registered Public Accounting Firm**

 *To the Shareholders and the Board of Directors of Apollo Resources Corporation (Apollo)*

**Opinion on the Financial Statements**

We have audited the accompanying consolidated balance sheets of Apollo Resources Corporation ("Apollo") ("the Company") as of December 31, 2023, and 2022, the related statements of income, changes in stockholders' equity, and cash flows for the period ended December 31, 2023 and December 31, 2022 and the related notes (collectively referred to as the "Consolidated financial statements"). In our opinion, based on our audit, the consolidated financial statements present fairly, in all material respects, the financial position of the Company as of December 31, 2023, and 2022, and the results of its operations and its cash flows for each of the two years in the period ended December 31, 2023 and December 31, 2022, in conformity with accounting principles generally accepted in the United States of America.

**Company's Ability to Continue as a Going Concern**

The Company suffered losses from operations in CY 2023 and CY 2022 and has an accumulated deficiency in the period ended December 31, 2023, and 2022 that raises substantial doubt about its ability to continue as a going concern. As discussed in Note 1 to the financial statements, the accompanying financial statements have been prepared on a going-concern basis. Management's plans in regard to these matters are also described in Note 1. The financial statements do not include any adjustments that might result from the outcome of this uncertainty.

**Basis for Opinion**

These financial statements are the responsibility of the Company's management. Our responsibility is to express an opinion on the Company's financial statements based on our audits. We are a public accounting firm registered with the Public Company Accounting Oversight Board (United States) ("PCAOB") and are required to be independent with respect to the Company in accordance with the U.S. federal securities laws and the applicable rules and regulations of the Securities and Exchange Commission and the PCAOB.

We conducted our audits in accordance with the standards of the PCAOB. Those standards require that we plan and perform the audit to obtain reasonable assurance about whether the financial statements are free of material misstatement, whether due to error or fraud. The Company is not required to have, nor were we engaged to perform, an audit of its internal control over financial reporting. As part of our audits, we are required to obtain an understanding of internal control over financial reporting but not for the purpose of expressing an opinion on the effectiveness of the Company's internal control over financial reporting. Accordingly, we express no such opinion.

Our audits included performing procedures to assess the risks of material misstatement of the financial statements, whether due to error or fraud and performing procedures that respond to those risks. Such procedures included examining, on a test basis, evidence regarding the amounts and disclosures in the financial statements. Our audits also included evaluating the accounting principles used and significant estimates made by management, as well as evaluating the overall presentation of the financial statements. We believe that our audits provide a reasonable basis for our opinion.

 */s/ Pipara & Co LLP*

For, Pipara & Co LLP (6841)

We have served as the Company's auditor since 2024

Place: Ahmedabad, India

Date: August 03, 2024

**APOLLO RESOURCES CORPORATION**

**CONSOLIDATED BALANCE SHEETS**

---

| | | |
|:---|:---|:---|
|  | **December 31,**<br>**2023** | **December 31,**<br>**2022** |
| **ASSETS** |  |  |
| Current assets: |  |  |
| &nbsp;&nbsp;&nbsp;Cash and cash equivalents | $5973 | $5198 |
| &nbsp;&nbsp;&nbsp;Related party transactions | 674461 |  |
| &nbsp;&nbsp;&nbsp;Other current assets | $30147 | 17692 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current assets | $710581 | $22890 |
| Property and equipment, net | 1059862 | $1051746 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total assets | $1770443 | $1074636 |
| **LIABILITIES AND STOCKHOLDERS' DEFICIT** |  |  |
| Current liabilities: |  |  |
| &nbsp;&nbsp;&nbsp;Accounts payable | $22601 | $514834 |
| &nbsp;&nbsp;&nbsp;Borrowing from Related Parties | $- | $881558 |
| &nbsp;&nbsp;&nbsp;Other current liabilities | $40951 | $57549 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current liabilities | $63552 | $1453941 |
| Non-Current liabilities: |  |  |
| &nbsp;&nbsp;&nbsp;Other non-current liabilities | $53849 | 78964 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total current liabilities | $53849 | 78964 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total liabilities | $117401 | $1532905 |
| Stockholders' equity: |  |  |
| &nbsp;&nbsp;&nbsp;Additional paid-in capital | 5391917 | 2039612 |
| &nbsp;&nbsp;&nbsp;Accumulated other comprehensive loss | (205470) | 4950 |
| &nbsp;&nbsp;&nbsp;Accumulated deficit | (3533405) | (2502831) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total stockholders' equity | 1653042 | (458269) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total liabilities and stockholders' equity | 1770443 | 1074636 |

---

The accompanying notes are an integral part of the consolidated financial statements.

**APOLLO RESOURCES CORPORATION**

**CONSOLIDATED STATEMENTS OF OPERATIONS AND COMPREHENSIVE LOSS**

---

| | | |
|:---|:---|:---|
|  | **Year Ended December 31,** | **Year Ended December 31,** |
|  | **2023** | **2022** |
| Revenue | $- | $- |
| Cost of revenue | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gross profit | $- | $- |
| Operating expenses: |  |  |
| &nbsp;&nbsp;&nbsp;General and administrative | $(781649) | $(712699) |
| &nbsp;&nbsp;&nbsp;Stock based compensation | $(197805) | $(331858) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Total operating expenses | $(979454) | $(1044557) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss from operations | $(979454) | $(1044557) |
| Other expense (income): |  |  |
| &nbsp;&nbsp;&nbsp;Other income (expense) | $(51120) | $(158916) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Other income (expense) | $(51120) | $(158916) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Loss before provision for income taxes | $(1030574) | $(1203473) |
| Provision for income taxes | $- | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net loss | $(1030574) | $(1203473) |

---

The accompanying notes are an integral part of the consolidated financial statements.

**APOLLO RESOURCES CORPORATION**

**CONSOLIDATED STATEMENTS OF CHANGES IN STOCKHOLDERS' EQUITY**

---

| | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  | **Series A Preferred Stock** | **Series A Preferred Stock** | **Common Stock** | **Common Stock** | | | | |
|  | **Shares** | **Value** | **Shares** | **Value** |<br>**Additional Paid-in**<br>**Capital** | **Accumulated**<br>**Other Comprehensive**<br>**Income (Loss)** |<br>**Accumulated**<br>**Deficit** |<br>**Total Stockholders'**<br>**Equity** |
| Balance, December 31, 2021 | 1 | $- | 1446250 | $1446 | $1080433 | $314055 | $(1299358) | $96576 |
| Issuance of common stock in connection with sales made under private offerings |  |  | 150175 | $150 | $625725 | $- | $- | $625875 |
| Stock based compensation |  |  |  |  | $331858 |  | $- | $331858 |
| Change in foreign currency translation |  |  |  | $- | $- | $(309105) | $- | $(309105) |
| Net loss | - | - | - | $- | $- | $- | $(1203473) | $(1203473) |
| Balance, December 31, 2022 | 1 | $- | 1596425 | $1596 | $2038016 | $4950 | $(2502831) | $(458269) |
| Issuance of common stock in connection with sales made under private offerings |  |  | 525750 | $526 | $3153974 | $- | $- | $3154500 |
| Stock based compensation |  |  |  | $- | $197805 | $- | $- | $197805 |
| Change in foreign currency translation |  |  |  | $- | $- | $(210420) | $- | $(210420) |
| Net loss | - | - | - | $- | $- | $- | $(1030574) | $(1030574) |
| Balance, December 31, 2023 | 1 | $- | 2122175 | $2122 | $5389795 | $(205470) | $(3533405) | $1653042 |

---

The accompanying notes are an integral part of the consolidated financial statements.

**APOLLO RESOURCES CORPORATION**

**CONSOLIDATED STATEMENTS OF CASH FLOWS** 

---

| | | |
|:---|:---|:---|
|  | **Year Ended December 31,** | **Year Ended December 31,** |
|  | **2023** | **2022** |
| Cash flows from operating activities of continuing operations: |  |  |
| &nbsp;&nbsp;&nbsp;Net loss | $(1030574) | $(1203473) |
| &nbsp;&nbsp;&nbsp;Adjustments to reconcile net loss to cash used in operating activities: |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Stock based compensation and services | $197805 | $331858 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Depreciation and amortization | $- | $1630 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Impairment losses | $1474 | $6101 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Write off of tax recoverable | $- | $17654 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Changes in operating assets and liabilities: |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Accounts payable and accrued expenses | $(442101) | $(218802) |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Accounts receivable and other assets | $(10748) | $2465 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash used in operating activities | $(1284144) | $(1062567) |
| Cash flows from investing activities: |  |  |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Acquisition of capital assets | $(39488) | $- |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash used in investing activities | $(39488) | $- |
| Cash flows from financing activities: |  |  |
| &nbsp;&nbsp;&nbsp;Net proceeds from sale of common stock | $- | $525000 |
| &nbsp;&nbsp;&nbsp;Related party transaction | 1324296 | 397215 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Net cash provided by financing activities | $1324296 | $922215 |
| Effect of exchange rates on cash and cash equivalents | $111 | $1293 |
| Net increase (decrease) in cash and cash equivalents | $775 | $(139059) |
| Cash and cash equivalents at beginning of period | $5198 | $144257 |
| Cash and cash equivalents at end of period | $5973 | $5198 |

---

The accompanying notes are an integral part of the consolidated financial statements.

**APOLLO RESOURCES CORPORATION**

**NOTES TO THE CONSOLIDATED FINANCIAL STATEMENTS**

**NOTE 1 – ORGANIZATION, BUSINESS AND SUMMARY OF SIGNIFICANT ACCOUNTING POLICIES**

*<u>Organization and Description of Business</u>*

On August 21, 2020, Apollo Resources Corporation ("Apollo Resources" or the "Company") was incorporated under the laws of the Republic of the Marshall Islands. Concurrently. Atlas Lithium held an approximate 58.71% interest in the Company as of December 31, 2023.

Apollo Resources Corporation (The Company) is a privately held company focused on iron projects in Brazil. Apollo Resources currently owns 56,290 acres of mineral rights for iron distributed in six projects, five of which are in exploration stage while its Iron Quadrangle Project ("IQP") is being developed towards an iron mine.

*<u>Basis of Presentation</u>*

The consolidated financial statements of the Company have been prepared in accordance with generally accepted accounting principles ("GAAP") of the United States of America and are expressed in United States dollars. For the years ended December 31, 2023 and 2022, the consolidated financial statements include the accounts of the Company and its 99.99% owned subsidiaries, Mineração Apollo Ltda, RST Recursos Minerais Ltda., and Mineração Duas Barras Ltda.

All material intercompany accounts and transactions have been eliminated in consolidation.

*<u>Use of Estimates</u>*

The preparation of financial statements in conformity with U.S. GAAP requires management to make estimates and assumptions that affect the reported amounts of assets and liabilities and disclosure of contingencies at the date of the financial statements and the reported amount of revenues and expenses during the reporting period. Actual results may differ from those estimates.

*<u>Going Concern</u>*

The consolidated financial statements have been prepared on a going concern basis which contemplates the realization of assets and the settlement of liabilities in the normal course of business. The Company has limited working capital, has incurred losses since its inception, and has not yet generated material revenues from the sale of its products or services. These factors create substantial doubt about the Company's ability to continue as a going concern. The consolidated financial statements do not include any adjustment that might be necessary if the Company is unable to continue as a going concern.

The ability of the Company to continue as a going concern is dependent on the Company generating cash from its operations, the sale of its stock and/or obtaining debt financing. During the year ended December 31, 2023, the Company funded operations primarily through the sale of equity securities and loans from related parties. Management intends to cover any operating losses by selling its equity securities and obtaining debt financing. There can be no assurance the Company will be successful in these efforts.

*<u>Fair Value of Financial Instruments</u>*

Apollo Resources follows the guidance of Accounting Standards Codification ("ASC") Topic 820 – Fair Value Measurement and Disclosure. Fair value is defined as the exit price, or the amount that would be received to sell an asset or paid to transfer a liability in an orderly transaction between market participants as of the measurement date. The guidance also establishes a hierarchy for inputs used in measuring fair value that maximizes the use of observable inputs and minimizes the use of unobservable inputs by requiring that the most observable inputs be used when available. Observable inputs are inputs market participants would use in valuing the asset or liability and are developed based on market data obtained from sources independent of Apollo Resources. Unobservable inputs are inputs that reflect Apollo Resources' assumptions about the factors market participants would use in valuing the asset or liability. The guidance establishes three levels of inputs that may be used to measure fair value:

Level 1. Observable inputs such as quoted prices in active markets;

Level 2. Inputs, other than the quoted prices in active markets, that are observable either directly or indirectly; and

Level 3. Unobservable inputs in which there is little or no market data, which require the reporting entity to develop its own assumptions.

As of December 31, 2023, Apollo Resources did not have any level 2 or 3 assets or liabilities.

Apollo Resources' financial instruments consist of cash and cash equivalents, accounts payable, and accrued expenses. The carrying amount of these financial instruments approximates fair value due to either length of maturity or interest rates that approximate prevailing market rates unless otherwise disclosed in these consolidated financial statements.

*<u>Cash and Cash Equivalents</u>*

The Company considers all highly liquid instruments purchased with a maturity of three months or less to be cash equivalents to the extent that the funds are not being held for investment purposes. Funds held in Brazilian banks are insured up to 250,000 Brazilian Real (approximately $3,652 based on the December 31, 2023 exchange rate).

*<u>Property and Equipment</u>*

Property and equipment are stated at cost. Major improvements and betterments are capitalized. Maintenance and repairs are expensed as incurred. Depreciation is computed using the straight-line method over the estimated useful life. At the time of retirement or other disposition of property and equipment, the cost and accumulated depreciation are removed from the accounts and any resulting gain or loss is reflected in the statements of operations as other gain or loss, net.

*<u>Mineral Properties</u>*

Costs of exploration, carrying and retaining unproven mineral lease properties are expensed as incurred. Mineral property acquisition costs, including licenses and lease payments, are capitalized. Impairment losses are recorded on mineral properties used in operations when indicators of impairment are present and the undiscounted cash flows estimated to be generated by those assets are less than the assets' carrying amount. The Company did not recognize any impairment losses related to mineral properties held during the years ended December 31, 2023 and 2022.

For intangible assets purchased in a business combination, the estimated fair values of the assets received are used to establish their recorded values. For intangible assets acquired in a non-monetary exchange, the estimated fair values of the assets transferred (or the estimated fair values of the assets received, if more clearly evident) are used to establish their recorded values, unless the values of neither the assets received nor the assets transferred are determinable within reasonable limits, in which case the assets received are measured based on the carrying values of the assets transferred. Valuation techniques consistent with the market approach, income approach and/or cost approach are used to measure fair value. These rights are held in perpetuity provided the Company remains in compliance with various government regulations and industry requirements.

*<u>Impairment of Long-Lived Assets</u>*

For long-lived assets, such as property and equipment and intangible assets subject to amortization, Apollo Resources continually monitors events and changes in circumstances that could indicate carrying amounts of long-lived assets may not be recoverable. When such events or changes in circumstances are present, the Company assesses the recoverability of long-lived assets by determining whether the carrying value of such assets will be recovered through undiscounted expected future cash flows. If the total of the future undiscounted cash flows is less than the carrying amount of those assets, Apollo Resources recognizes an impairment loss based on the excess of the carrying amount over the fair value of the assets. Assets to be disposed of are reported at the lower of the carrying amount or the fair value less costs to sell.

*<u>Stock-Based Compensation</u>*

The Company records stock-based compensation in accordance with ASC Topic 718, Compensation - Stock Compensation. ASC 718 requires companies to measure compensation cost for stock-based employee compensation at fair value at the grant date and recognize the expense over the employee's requisite service period. Under ASC 718, volatility is based on the historical volatility of our stock or the expected volatility of the stock of similar companies. The expected life assumption is primarily based on historical exercise patterns and employee post-vesting termination behavior. The risk-free interest rate for the expected term of the option is based on the U.S. Treasury yield curve in effect at the time of grant.

The Company utilizes the Black-Scholes option-pricing model, which was developed for use in estimating the fair value of options. Option-pricing models require the input of highly complex and subjective variables including the expected life of options granted and the expected volatility of our stock price over a period equal to or greater than the expected life of the options. Because changes in the subjective assumptions can materially affect the estimated value of our employee stock options, it is management's opinion that the Black-Scholes option-pricing model may not provide an accurate measure of the fair value of our employee stock options. Although the fair value of employee stock options is determined in accordance with ASC Topic 718 using an option-pricing model, that value may not be indicative of the fair value observed in a willing buyer/willing seller market transaction.

On June 20, 2018, the FASB issued ASU 2018-07 which simplifies the accounting for share-based payments granted to nonemployees for goods and services. Under the ASU, most of the guidance on such payments to nonemployees would be aligned with the requirements for share-based payments granted to employees. Equity classified share-based payments for employees are fixed at the time of grant. Equity-classified nonemployee share-based payment awards are measured at the grant date of the award which is the same as share-based payments for employees. The Company adopted the requirements of the new rule as of January 1, 2019, the effective date of the new guidance.

*<u>Foreign Currency</u>*

Apollo's subsidiaries, uses its local currency as its functional currency. Resulting translation gains or losses are recognized as a component of accumulated other comprehensive income. Transaction gains or losses related to balances denominated in a currency other than the functional currency are recognized in the consolidated statements of operations.

*<u>Revenue recognition</u>*

For the years ended December 31<sup>st</sup>, 2023 and 2022, the Company had not recognized any revenues from sales.

Had the Company performed any, revenues from sales would have been recognized when control of the product is transferred to customers, in accordance with the terms and conditions in each sales contract.

Following ASC 606, the Company will follow the 5-step model in order to recognize revenue in accordance with the core principle.

*<u>Recent Accounting Pronouncements</u>*

The Company has implemented all new accounting pronouncements that are in effect and that may impact its financial statements and does not believe that there are any other new pronouncements that have been issued that might have a material impact on its financial position or results of operations except as noted below:

In August 2020, the FASB issued ASU No. 2020-06, Debt - Debt with Conversion and Other Options (Subtopic 470-20) and Derivatives and Hedging - Contracts in Entity's Own Equity (Subtopic 815-40): Accounting for Convertible Instruments and Contracts in an Entity's Own Equity. ASU 2020-06 will simplify the accounting for convertible instruments by reducing the number of accounting models for convertible debt instruments and convertible preferred stock. Limiting the accounting models will result in fewer embedded conversion features being separately recognized from the host contract as compared with current GAAP. Convertible instruments that continue to be subject to separation models are (1) those with embedded conversion features that are not clearly and closely related to the host contract, that meet the definition of a derivative, and that do not qualify for a scope exception from derivative accounting and (2) convertible debt instruments issued with substantial premiums for which the premiums are recorded as paid-in capital. ASU 2020-06 also amends the guidance for the derivatives scope exception for contracts in an entity's own equity to reduce form-over-substance-based accounting conclusions. ASU 2020-06 will be effective January 1, 2024, for the Company. Early adoption is permitted, but no earlier than January 1, 2021, including interim periods within that year. The Company is evaluating the effect of the adoption of ASU 2020-06 on the consolidated financial statements, but currently does not believe ASU 2020-06 will have a significant impact on the Company's accounting for its convertible debt instruments. The effect will largely depend on the composition and terms of the financial instruments at the time of adoption.

In February 2020, the FASB issued ASU 2020-02, Financial Instruments-Credit Losses (Topic 326) and Leases (Topic 842) - Amendments to SEC Paragraphs Pursuant to SEC Staff Accounting Bulletin No. 119 and Update to SEC Section on Effective Date Related to Accounting Standards Update No. 2016-02, Leases (Topic 842), which amends the effective date of the original pronouncement for smaller reporting companies. ASU 2016-13 and its amendments will be effective for the Company for interim and annual periods in fiscal years beginning after December 15, 2022. The Company believes the adoption will modify the way the Company analyzes financial instruments, but it does not anticipate a material impact on results of operations. The Company is in the process of determining the effects adoption will have on its consolidated financial statements.

In August 2023, the FASB issued ASU 2023-05, Business Combinations - Joint Venture Formations (Subtopic 805-60): Recognition and Initial Measurement, which clarifies the business combination accounting for joint venture formations. The amendments in the ASU seek to reduce diversity in practice that has resulted from a lack of authoritative guidance regarding the accounting for the formation of joint ventures in separate financial statements. The amendments also seek to clarify the initial measurement of joint venture net assets, including businesses contributed to a joint venture. The guidance is applicable to all entities involved in the formation of a joint venture. The amendments are effective for all joint venture formations with a formation date on or after January 1, 2025. Early adoption and retrospective application of the amendments are permitted. We do not expect adoption of the new guidance to have a material impact on our consolidated financial statements and disclosures.

In November 2023, the FASB issued ASU 2023-07, Segment Reporting (Topic 280): Improvements to Reportable Segment Disclosures, amending reportable segment disclosure requirements to include disclosure of incremental segment information on an annual and interim basis. Among the disclosure enhancements are new disclosures regarding significant segment expenses that are regularly provided to the chief operating decision-maker and included within each reported measure of segment profit or loss, as well as other segment items bridging segment revenue to each reported measure of segment profit or loss. The amendments in ASU 2023-07 are effective for fiscal years beginning after December 15, 2023, and for interim periods within fiscal years beginning after December 15, 2024, and are applied retrospectively. Early adoption is permitted. We are currently evaluating the impact of this update on our consolidated financial statements and disclosures.

In December 2023, the FASB issued ASU 2023-09, Income Taxes (Topic 740): Improvement to Income Tax Disclosures, amending income tax disclosure requirements for the effective tax rate reconciliation and income taxes paid. The amendments in ASU 2023-09 are effective for fiscal years beginning after December 15, 2024 and are applied prospectively. Early adoption and retrospective application of the amendments are permitted. We do not expect adoption of the new guidance to have a material impact on our consolidated financial statements and disclosures.

**NOTE 2 – COMPOSITION OF CERTAIN FINANCIAL STATEMENT ITEMS**

*<u>Proper, Plant and equipment</u>*

The following table sets forth the components of the Company's Property Plant and Equipment as at December 31, 2023 and 2022:

SCHEDULE OF PROPERTY AND EQUIPMENT

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31, 2023** | **December 31, 2023** | **December 31, 2023** |
|  | Cost | Accumulated <br> Amortization | Net Book <br> Value |
| Machinery and equipment | $- |  | $- |
| Mining rights | $1059862 |  | $1059862 |
| Total Property Plant and Equipment | $1059862 |  | $1059862 |

---

---

| | | | |
|:---|:---|:---|:---|
|  | **December 31, 2022** | **December 31, 2022** | **December 31, 2022** |
|  | Cost | Accumulated <br> Amortization | Net Book <br> Value |
| Machinery and equipment | $4063 | $2589 | $1474 |
| Mining rights | $1050272 |  | $1050272 |
| Total Property Plant and Equipment | $1054335 | $2589 | $1051746 |

---

For the years ended December 31, 2023 and 2022, the Company recorded amortization expense of nil and $1,630, respectively.

In 2023 and 2022, the Company proceeded to an impairment analysis on its property and equipment and intangibles and concluded that, other than mineral rights, there was no expectation of future economic benefits being generated from the assets use or disposal, affecting the main condition for an asset to be recognized. As a result, an impairment loss of $1,474 in 2023 ($6,101 in 2022) was recognized in profit and loss of the period as Other expenses.

*<u>Related Party Receivables/Payables</u>*

Related party payables relate to loans granted to (received from) entities belonging to the same economic group of the Company to enable Group entities to execute their operating activities.

As of December 31, 2023, there are $674,461 of related party outstanding balances, represented by amounts owed from Jupiter Gold Corporation.

As of December 31, 2022, there are $881,558 of related party outstanding balances, mainly represented by amounts owed to Atlas Lítio Brasil Ltda.

**NOTE 3 – STOCKHOLDERS' EQUITY**

*<u>Issued and Authorized</u>*

As of December 31, 2023, The Company had 2,122,175 shares of its common stock and one share of its preferred stock issued and outstanding. As of December 31, 2023, The Company had 49,999,000 shares of common stock authorized.

*<u>Common Stock</u>*

During the year ended December 31, 2023, The Company issued and sold 525,750 shares of common stock for proceeds of $3,154,500, paid through the conversion of an intercompany loan from Atlas Lithium Corporation into share capital.

*<u>Preferred A Stock</u>*

In 2016, Company issued to Marc Fogassa, its Founder, Chief Executive Officer, and Chairman, one share of Series A Convertible Preferred Stock ("Preferred A Stock"). The Certificate of Designations, Preferences and Rights of Preferred A Stock provides that for so long as it is issued and outstanding, its holders shall vote together as a single class with the holders of the Company's common stock, with the holders of Preferred A Stock being entitled to 51% of the total votes on all such matters regardless of the actual number of shares of Preferred A Stock then outstanding, and the holders of common stock are entitled to their proportional share of the remaining 49% of the total votes based on their respective voting power.

*<u>Stock Options</u>*

During the year ended December 31, 2023, the Company granted Marc Fogassa as contractual compensation options to purchase an aggregate of 180,000 shares of its common stock. Such awards corresponded to the period between January 1, 2023, to December 31, 2023. The options issued in 2023 were valued at $197,805 in total.

*<u>Stock Warrants</u>*

During the years ended December 31, 2023 and 2022 the Company did not issue any warrants.

**NOTE 4 – SUBSEQUENT EVENTS**

In accordance with FASB ASC 855-10 Subsequent Events, the Company has analyzed its operations subsequent to December 31, 2023 to the date these consolidated financial statements were issued, and has determined that it does not have any material subsequent events to disclose in these consolidated financial statements.

**[●] Shares of Common Stock**

![](formf-1_060.jpg)

**PROSPECTUS**

---

| | |
|:---|:---|
| **A.G.P.** | **Bradesco BBI** |

---

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**, 2025**

Through and including , 2025 (the 25<sup>th</sup> day after the date of this prospectus), all dealers effecting transactions in these securities, whether or not participating in this offering, may be required to deliver a prospectus. This is in addition to a dealer's obligation to deliver a prospectus when acting as an underwriter and with respect to an unsold allotment or subscription.

**PART II - INFORMATION NOT REQUIRED IN PROSPECTUS**

**Item 6. Indemnification of Directors and Officers.**

Under the registrant's Articles of Incorporation and Bylaws and under Section 60 of the Republic of the Marshall Islands Business Corporations Act, or the BCA, the registrant may indemnify anyone who was or is a party or is threatened to be made a party to any threatened, pending or completed action, suit or proceeding (other than an action by or in the right of the corporation) whether civil, criminal, administrative or investigative, by reason of the fact that they are or were a director or officer of the corporation, or are or were serving at the request of the corporation as a director or officer of another corporation, partnership, joint venture, trust or other enterprise.

A limitation on the foregoing is the statutory proviso (also found in the registrant's Bylaws) that, in connection with such action, suit or proceeding if they acted in good faith and in a manner they reasonably believed to be in or not opposed to the best interests of the corporation, and, with respect to any criminal action or proceeding, had no reasonable cause to believe that their conduct was unlawful.

Further, under Section 60 of the BCA and the registrant's Bylaws, the termination of any action, suit or proceeding by judgment, order, settlement, conviction, or upon a plea of no contest, or its equivalent, does not, of itself, create a presumption that the person did not act in good faith and in a manner that they reasonably believed to be in or not opposed to the best interests of the corporation, and, with respect to any criminal action or proceeding, had reasonable cause to believe that their conduct was unlawful.

In addition, under Section 60 of the BCA and under the registrant's Bylaws, a corporation may indemnify any person who was or is a party, or is threatened to be made a party, to any threatened, pending, or completed action or suit by or in the right of the corporation to procure judgment in its favor by reason of the fact that they are or were a director or officer of the corporation, or are or were serving at the request of the corporation as a director or officer of another corporation, partnership, joint venture, trust or other enterprise. Such indemnification may be made against expenses (including attorneys' fees) actually and reasonably incurred by such person in connection with the defense or settlement of such action or suit if they acted in good faith and in a manner they reasonably believed to be in or not opposed to the best interests of the corporation. Again, this is provided that no indemnification may be made in respect of any claim, issue or matter as to which such person shall have been adjudged to be liable to the corporation unless and only to the extent that the court in which such action or suit was brought shall determine upon application that, despite the adjudication of liability but in view of all the circumstances of the case, such person is fairly and reasonably entitled to indemnity for such expenses that the court shall deem proper.

The registrant's Bylaws further provide that any indemnification pursuant to the foregoing (unless ordered by a court) may be made by the corporation only as authorized in the specific case upon a determination that indemnification of the director or officer is proper in the circumstances because they have met the applicable standard of conduct set forth above. Such determination may be made by the Board of Directors of the corporation by a majority vote of a quorum consisting of directors who were not parties to any action, suit or proceeding referred to in the foregoing instances, by independent legal counsel in a written opinion or by the stockholder of the corporation.

Further, and as provided by both the registrant's Bylaws and Section 60 of the BCA, when a director or officer of a corporation has been successful on the merits or otherwise in defense of any action, suit or proceeding referred to in the foregoing instances, or in the defense of a related claim, issue or matter, they will be indemnified against expenses (including attorneys' fees) actually and reasonably incurred by them in connection with such matter.

Likewise, pursuant to the registrant's Bylaws and Section 60 of the BCA, expenses (such Bylaws specifically include attorneys' fees in expenses) incurred in defending a civil or criminal action, suit or proceeding by an officer or director may be paid in advance of the final disposition of the action, suit or proceeding upon receipt of an undertaking by or on behalf of the director or officer to repay such amount if it is ultimately determined that they are not entitled to indemnification. The Bylaws further provide that with respect to other employees, such expenses may be paid on the terms and conditions, if any, as the Board may deem appropriate.

Both Section 60 of the BCA and the registrant's Bylaws further provide that the foregoing indemnification and advancement of expenses are not exclusive of any other rights to which those seeking indemnification or advancement of expenses may be entitled under any bylaw, agreement, vote of shareholder or disinterested directors or otherwise, both as to action in their official capacity and/or as to action in another capacity while holding office.

Under both Section 60 of the BCA and the registrant's Bylaws, the registrant also has the power to purchase and maintain insurance on behalf of any person who is or was a director or officer of the corporation or is or was serving at the request of the corporation as a director or officer of another corporation, partnership, joint venture, trust or other enterprise against any liability asserted against them and incurred by them in such capacity, or arising out of their status as such, regardless of whether the corporation would have the power to indemnify them against such liability under the foregoing.

Under Section 60 of the BCA (and as provided in the registrant's Bylaws), the indemnification and advancement of expenses provided by, or granted under the foregoing continue with regard to a person who has ceased to be a director, officer, employee or agent and inure to the benefit of their heirs, executors and administrators unless otherwise provided when authorized or ratified. Additionally, the registrant's By-Laws provide that no director or officer of the corporation will be personally liable to the corporation or any stockholder of the corporation for monetary damages for breach of fiduciary duty as a director or officer, provided that a director or officer's liability will not be limited for any breach of the director's or the officer's duty of loyalty to the corporation or its stockholder, for acts or omissions not in good faith or which involve intentional misconduct or a knowing violation of law or for any transaction from which the director or officer derived an improper personal benefit.

Such limitation of liability and indemnification does not affect the availability of equitable remedies. In addition, the registrant has been advised that in the opinion of the SEC, indemnification for liabilities arising under the Securities Act is against public policy as expressed in the Securities Act and is therefore unenforceable. The registrant has obtained directors' and officers' liability insurance against any liability asserted against such person incurred in the capacity of director or officer or arising out of such status, whether or not the registrant would have the power to indemnify such person.

**Item 7. Recent Sales of Unregistered Securities.**

In the three years preceding the filing of this registration statement, we issued the securities described below without registration under the Securities Act. The securities were issued pursuant to the private placement exemption provided by Section 4(a)(2) of the Securities Act.

In June 2023, the registrant issued 320,700 shares of common stock to Atlas Lithium, in satisfaction of the acquisition of a gold processing plant for a total consideration of $320,700.

In 2022, we issued to three investors an aggregate of 1,853,526 unregistered shares of our common stock for $489,875.

In 2023, we issued to five investors an aggregate of 506,480 unregistered shares of our common stock for $291,600.

In 2024, we issued to 14 to investors an aggregate of 3,009,162 unregistered shares of our common stock for $1,582,250.

In connection with the foregoing, we relied upon the exemption from registration provided by Section 4(a)(2) under the Securities Act, for transactions not involving a public offering.

 **Item 8. Exhibits and Financial Statement Schedules.** 

(a) Exhibits: See Exhibit Index beginning on page II-4 of this registration statement.

(b) Financial Statement Schedules: See our consolidated financial statements starting on page F-1 of this registration statement. All other schedules have been omitted because they are not required or are not applicable, or the information is otherwise set forth in our consolidated financial statements and the related notes thereto.

**Item 9. Undertakings.** 

The undersigned registrant hereby undertakes:

(1) To file, during any period in which offers or sales are being made, a post-effective amendment to this registration statement:

&nbsp;&nbsp;&nbsp;&nbsp;i. To include any prospectus required by section 10(a)(3) of the Securities Act of 1933;

ii. To reflect in the prospectus any facts or events arising after the effective date of the registration statement (or the most recent post-effective amendment thereof) which, individually or in the aggregate, represent a fundamental change in the information set forth in the registration statement. Notwithstanding the foregoing, any increase or decrease in volume of securities offered (if the total dollar value of securities offered would not exceed that which was registered) and any deviation from the low or high end of the estimated maximum offering range may be reflected in the form of prospectus filed with the Commission pursuant to Rule 424(b) if, in the aggregate, the changes in volume and price represent no more than 20% change in the maximum aggregate offering price set forth in the "Calculation of Registration Fee" table in the effective registration statement;

iii. To include any material information with respect to the plan of distribution not previously disclosed in the registration statement or any material change to such information in the registration statement.

(2) That, for the purpose of determining any liability under the Securities Act of 1933, each such post-effective amendment shall be deemed to be a new registration statement relating to the securities offered therein, and the offering of such securities at that time shall be deemed to be the initial bona fide offering thereof.

(3) To remove from registration by means of a post-effective amendment any of the securities being registered which remain unsold at the termination of the offering.

(4) Insofar as indemnification for liabilities arising under the Securities Act of 1933 may be permitted to directors, officers and controlling persons of the registrant pursuant to the foregoing provisions, or otherwise, the registrant has been advised that in the opinion of the Securities and Exchange Commission such indemnification is against public policy as expressed in the Act and is, therefore, unenforceable. In the event that a claim for indemnification against such liabilities (other than the payment by the registrant of expenses incurred or paid by a director, officer or controlling person of the registrant in the successful defense of any action, suit or proceeding) is asserted by such director, officer or controlling person in connection with the securities being registered, the registrant will, unless in the opinion of its counsel the matter has been settled by controlling precedent, submit to a court of appropriate jurisdiction the question whether such indemnification by it is against public policy as expressed in the Act and will be governed by the final adjudication of such issue.

(5) That for the purpose of determining any liability under the Securities Act of 1933:

(i) The information omitted from the form of prospectus filed as part of this registration statement in reliance upon Rule 430A and contained in a form of prospectus filed by the registrant pursuant to Rule 424(b) (1) or (4) or 497(h) under the Securities Act shall be deemed to be part of this registration statement as of the time it was declared effective.

(ii) Each post-effective amendment that contains a form of prospectus shall be deemed to be a new registration statement relating to the securities offered therein, and the offering of such securities at that time shall be deemed to be the initial bona fide offering thereof.

**EXHIBIT INDEX**

---

| | |
|:---|:---|
| Exhibit |  |
| Number | Description |
| 1.1\* | Form of Underwriting Agreement |
| 2.1 | [Agreement and Plan of Merger, dated as of October 31, 2024, by and between Jupiter Gold Corporation and Apollo Resources Corporation (Incorporated by reference to Exhibit 4.1 to the Company's Report on Form 6-K, filed with the SEC on November 6, 2024)](https://www.sec.gov/Archives/edgar/data/1684688/000149315224043843/ex4-1.htm) |
| 3.1 | [Amended and Restated Articles of Incorporation of the Company (Incorporated by reference to Exhibit 1.1 to the Company's Report on Form 6-K, filed with the SEC on November 22, 2024)](https://www.sec.gov/Archives/edgar/data/1684688/000149315224047371/ex1-1.htm) |
| 3.2 | [Articles of Amendment, dated as of December 20, 2024, to the Amended and Restated Articles of Incorporation of the Company, as amended (filed herewith)](ex3-2.htm) |
| 3.3 | [Certificate of Correction, dated as of January 27, 2025, to Articles of Amendment of the Company (Incorporated by reference to Exhibit 1.3 to the Company's Form 20-F filed February 28, 2025).](https://www.sec.gov/Archives/edgar/data/1684688/000149315225008689/ex1-3.htm) |
| 3.4 | [Amended and Restated Bylaws of the Company (Incorporated by reference to Exhibit 1.2 of the Company's Report on Form 6-K, filed with the SEC on November 22, 2024)](https://www.sec.gov/Archives/edgar/data/1684688/000149315224047371/ex1-2.htm) |
| 3.5 | [Certificate of Designations, Preferences and Rights of Series A Convertible Preferred Stock of the Company (Incorporated by reference to Exhibit 1.4 to the Registration Statement on Form F-1, filed with the SEC on December 1, 2016)](https://www.sec.gov/Archives/edgar/data/1684688/000107997416001769/ex1_4.htm) |
| 4.1\* | Form of Representative's Warrant |
| 5.1\* | Opinion of Seward & Kissel, LLP |
| 10.1 | [Jupiter Gold Corporation 2016 Incentive Plan (Incorporated by reference to Exhibit 10.7 to the Company's Registration Statement on Form F-1, filed with the SEC on December 1, 2016)](https://www.sec.gov/Archives/edgar/data/1684688/000107997416001769/ex10_7.htm) |
| 10.2 | [Registration Rights Agreement, dated as of July 27, 2016, by and between the Company and Atlas Lithium Corporation (f/k/a Brazil Minerals, Inc.) (Incorporated by reference to Exhibit 10.2 to the Company's Registration Statement on Form F-1, filed with the SEC on December 1, 2016)](https://www.sec.gov/Archives/edgar/data/1684688/000107997416001769/ex10_2.htm) |
| 10.3\* | Amended and Restated Employment Agreement by and between the Company and Marc Fogassa, dated June 26, 2024 |
| 10.4 | [Option Agreement, dated as of December 19, 2024, between Jupiter Gold Corporation and Atlas Lithium Corporation (incorporated by reference to Exhibit 4.2 to the Company's Form 20-F, filed on February 28, 2025).](https://www.sec.gov/Archives/edgar/data/1684688/000149315225008689/ex4-2.htm) |
| 21.1 | [List of subsidiaries of Atlas Critical Minerals Corporation (filed herewith)](ex21-1.htm) |
| 23.1\* | Consent of Pipara & Co. LLP |
| 23.2\* | Consent of Seward & Kissel, LLP (included in Exhibit 5.1) |
| 24.1 | [Power of Attorney (included on the signature page of this Registration Statement)](#jw_001) |
| 96.1 | [Technical Report Summary regarding the Rio Piracicaba Project, updated as of June 16, 2025.](ex96-1.htm) |
| 99.1 | [Immaterial Mineral Rights of Atlas Critical Minerals Corporation (furnished herewith)](ex99-1.htm) |
| 107\* | Filing fee table. |

---

\* To be filed by amendment.

# Schedules and exhibits have been omitted pursuant to Item 601(b)(2) of Regulation S-K.

† Management contract or compensatory plan arrangement.

**SIGNATURES**

Pursuant to the requirements of the Securities Act of 1933, the registrant certifies that it has reasonable grounds to believe that it meets all of the requirements for filing on Form F-1 and has duly caused this registration statement to be signed on its behalf by the undersigned, thereunto duly authorized, in the City of Belo Horizonte, state of Minas Gerais, of Brazil, on , 2025.

---

| | |
|:---|:---|
| Atlas Critical Minerals Corporation | Atlas Critical Minerals Corporation |
| By: |  |
|  | Marc Fogassa |
|  | *Chief Executive Officer* |

---

**POWER OF ATTORNEY**

**KNOW ALL MEN BY THESE PRESENTS,** Each person whose signature appears below constitutes and appoints Marc Fogassa his true and lawful attorney-in-fact and agent, with full power of substitution and resubstitution for him and in his name, place and stead, and in any and all capacities, to sign for him and in him name in the capacities indicated below any and all amendments (including post-effective amendments) to this registration statement (or any other registration statement for the same offering that is to be effective upon filing pursuant to Rule 462(b) under the Securities Act of 1933, as amended), and to file the same, with all exhibits thereto and other documents in connection therewith, with the Securities and Exchange Commission, granting unto said attorney-in-fact and agent, full power and authority to do and perform each and every act and thing requisite or necessary to be done in and about the premises, as full to all intents and purposes as he might or could do in person, hereby ratifying and confirming all that said attorney-in-fact and agent, or his substitute or substitutes, may lawfully do or cause to be done by virtue hereof.

Pursuant to the requirements of the Securities Act of 1933, this registration statement has been signed by the following persons in the capacities indicated below:

---

| | | |
|:---|:---|:---|
| **Signature** | **Title** | **Date** |
|  | Chief Executive Officer and Chairman of the Board | , 2025 |
| Marc Fogassa | (Principal Executive Officer) |  |
|  | Chief Financial Officer and Treasurer | , 2025 |
| Rodrigo Nazareth Menck | (Principal Financial and Accounting Officer) |  |
|  | Vice-President of Administration and | , 2025 |
| Joel de Paiva Monteiro, Esq. | Operations, Secretary and Director |  |
|  | Vice-President, Mineral Exploration | , 2025 |
| Areli Nogueira da Silva Júnior | and Director |  |
|  | Director | , 2025 |
| Brian W. Bernier |  |  |
|  | Independent Director | , 2025 |
| Agenor Narcizo Drumond de Cuculicchio, Esq. |  |  |
|  | Independent Director | , 2025 |
| Gabriel Santos Cordeiro de Andrade, Esq. |  |  |

---

## Exhibit 3.2

**Exhibit 3.2**

![](ex3-2_001.jpg)

![](ex3-2_002.jpg)

![](ex3-2_003.jpg)

## Exhibit 21.1

**Exhibit 21.1**

---

| | | |
|:---|:---|:---|
| &nbsp;&nbsp;**Subsidiary Name** | &nbsp;&nbsp; **Country of**<br> **Incorporation** | &nbsp;&nbsp; **Company**<br> **Ownership Interest** |
| &nbsp;&nbsp;Mineração Jupiter Ltda | &nbsp;&nbsp;Brazil | &nbsp;&nbsp;99.99% |
| &nbsp;&nbsp;Mineração Apollo Ltda | &nbsp;&nbsp;Brazil | &nbsp;&nbsp;100% |
| &nbsp;&nbsp;Mineração Duas Barras Ltda | &nbsp;&nbsp;Brazil | &nbsp;&nbsp;100% |
| &nbsp;&nbsp;RST Recursos Minerais Ltda | &nbsp;&nbsp;Brazil | &nbsp;&nbsp;100% |

---

## Exhibit 96.1

**Exhibit 96.1**

**REGULATION** **S-K 1300 TECHNICAL REPORT SUMMARY**

**RIO PIRACICABA PROJECT**

**ATLAS CRITICAL MINERALS CORPORATION**

---

| | |
|:---|:---|
| ![](ex96-1_001.jpg) | ![](ex96-1_002.jpg) |

---

---

| | |
|:---|:---|
| ![](ex96-1_003.jpg) | ![](ex96-1_004.jpg) |

---

**Prepared by Qualified Persons**

**Volodymyr Myadzel, PhD**

**Orlando Garcia Rocha Filho**

**Bruno Vieira Pereira**

 **First Issued on March 30, 2022**

 **As Updated on June 3, 2022 and** 

 **June 16, 2025**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 2

**<u>LIST OF CONTENTS</u>**

---

| | |
|:---|:---|
| **1. Executive Summary** | **7** |
| &nbsp;&nbsp;&nbsp;&nbsp;1.1. Introduction | 7 |
| &nbsp;&nbsp;&nbsp;&nbsp;1.2. Property Description and Location | 7 |
| &nbsp;&nbsp;&nbsp;&nbsp;1.3. Geology and Mineralization | 7 |
| &nbsp;&nbsp;&nbsp;&nbsp;1.4. Exploration and Drilling | 8 |
| &nbsp;&nbsp;&nbsp;&nbsp;1.5. Mineral Resource Estimate | 8 |
| &nbsp;&nbsp;&nbsp;&nbsp;1.6. Conclusions and Recommendations | 8 |
| **2. Introduction** | **9** |
| &nbsp;&nbsp;&nbsp;&nbsp;2.1. Terms of Reference and Purpose of the Report | 9 |
| &nbsp;&nbsp;&nbsp;&nbsp;2.2. Qualifications of Consultants | 10 |
| &nbsp;&nbsp;&nbsp;&nbsp;2.3. Details of Inspection | 11 |
| &nbsp;&nbsp;&nbsp;&nbsp;2.4. Sources of Information | 11 |
| &nbsp;&nbsp;&nbsp;&nbsp;2.5. Effective Date | 11 |
| &nbsp;&nbsp;&nbsp;&nbsp;2.6. Units of Measure | 11 |
| **3. Property Description** | **11** |
| &nbsp;&nbsp;&nbsp;&nbsp;3.1. Project Location | 11 |
| &nbsp;&nbsp;&nbsp;&nbsp;3.2. Permit Status | 12 |
| &nbsp;&nbsp;&nbsp;&nbsp;3.3. History of the Mineral Right | 14 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.3.1. Mineral Right 832.945/1995 | 14 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.3.2. Mineral Right 833.114/2012 | 16 |
| &nbsp;&nbsp;&nbsp;&nbsp;3.4. Legal Status | 18 |
| &nbsp;&nbsp;&nbsp;&nbsp;3.5. Brazilian Mineral Legislation | 18 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.1. The Right of Priority and the Free Area | 18 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.2. Research Authorization | 18 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.3. Exploration Permit | 19 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.4. Final Research Report | 20 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.5. Maintenance of the Mineral Right | 20 |
| &nbsp;&nbsp;&nbsp;&nbsp;3.6. Environmental Liabilities and Permitting | 21 |
| &nbsp;&nbsp;&nbsp;&nbsp;3.7. Other Significant Factors and Risks | 21 |
| **4. Accessibility, Climate, Local Resources, Infrastructure and Physiography** | **21** |
| &nbsp;&nbsp;&nbsp;&nbsp;4.1. Accessibility | 21 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 3

---

| | |
|:---|:---|
| &nbsp;&nbsp;&nbsp;&nbsp;4.2. Climate | 22 |
| &nbsp;&nbsp;&nbsp;&nbsp;4.3. Physiography | 22 |
| &nbsp;&nbsp;&nbsp;&nbsp;4.4. Local Resources and Infrastructure | 25 |
| **5. History** | **26** |
| &nbsp;&nbsp;&nbsp;&nbsp;5.1. Geological Exploration and Research History | 26 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1.1. History of Mining in the region | 26 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1.2. Implementation of Mining Undertakings in Rio Piracicaba | 27 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1.3. Importance of Iron Ore to the Region | 29 |
| **6. Geological Setting, Mineralization and Deposit** | **29** |
| &nbsp;&nbsp;&nbsp;&nbsp;6.1. Regional Geology | 29 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.1.1. Minas Supergroup | 32 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.2. Local Geology | 33 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.3. Typologies of Ferriferous Formations | 35 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.1. Colluvium/Rolled – CR | 36 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.2. Friable Siliceous Itabirite - IFS | 38 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.3. Semi-Compact Itabirite - ISC | 39 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.4. Compact Itabirite - IC | 41 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.5. Manganese - Mn | 42 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.6. Quartzites - QZT | 42 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.4. Deposit Types | 44 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.5. Local Iron Metallogeny | 49 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.6. Banded Iron Formations (BIF) | 50 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.7. Hydrothermal Alteration of Banded Iron Formations | 55 |
| &nbsp;&nbsp;&nbsp;&nbsp;6.8. Surface Alteration Deposits (Lateritic) | 55 |
| **7. Exploration** | **55** |
| &nbsp;&nbsp;&nbsp;&nbsp;7.1. Exploration Infrastructure | 59 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.1.1. Project Staff | 59 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.1.2. Support Equipment | 59 |
| &nbsp;&nbsp;&nbsp;&nbsp;7.2. Geological Mapping | 59 |
| &nbsp;&nbsp;&nbsp;&nbsp;7.3. Channel and Well Sampling | 61 |
| &nbsp;&nbsp;&nbsp;&nbsp;7.4. Planialtimetric Topographic Survey | 65 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.4.1. Base and Control Points | 67 |
| &nbsp;&nbsp;&nbsp;&nbsp;7.5. Drillholes Cadastral Survey | 70 |
| &nbsp;&nbsp;&nbsp;&nbsp;7.6. Density | 71 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 4

---

| | |
|:---|:---|
| **8. Sample Preparation, Analysis and Security** | **7**3 |
| &nbsp;&nbsp;&nbsp;&nbsp;8.1. Sampling Method | 73 |
| &nbsp;&nbsp;&nbsp;&nbsp;8.2. Sample Assay | 73 |
| &nbsp;&nbsp;&nbsp;&nbsp;8.3. Sample Security | 73 |
| &nbsp;&nbsp;&nbsp;&nbsp;8.4. Results | 74 |
| **9. Data Verification** | **79** |
| &nbsp;&nbsp;&nbsp;&nbsp;9.1. Site Visit | 79 |
| **9.2. GeoAnalabs QA/QC (Quality Assurance and Quality Control)** | 82 |
| &nbsp;&nbsp;&nbsp;&nbsp;9.3. QA/QC Methodology | 82 |
| &nbsp;&nbsp;&nbsp;&nbsp;9.4. QA/QC Results | 84 |
| **9.5.** Data Import and Validation | 89 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;9.5.1. Database | 89 |
| **9.5.2. Database Verification by the Micromine System** | 92 |
| **9.6. QA/QC Conclusions** | 92 |
| **10. Mineral Processing and Metallurgical Testing** | **93** |
| **10.1. Samples Preparation** | 93 |
| &nbsp;&nbsp;&nbsp;&nbsp;10.2. Granulometric Assays | 94 |
| &nbsp;&nbsp;&nbsp;&nbsp;10.3. Granulochemical Assays | 94 |
| &nbsp;&nbsp;&nbsp;&nbsp;10.4. Mineralogical Assay | 95 |
| &nbsp;&nbsp;&nbsp;&nbsp;10.5. Wet Magnetic Separation | 96 |
| &nbsp;&nbsp;&nbsp;&nbsp;10.6. Quantitative Minerography | 99 |
| **10.7. Metallurgical Testing** | 101 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.1. Executive Summary | 101 |
| **10.7.2. Objective** | 102 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.3. Scope | 103 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.4. Equipment | 105 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.5. Experimental Results | 105 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.6. Mass Balancing | 108 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.7. Selection of the Best Magnetic Separation Route | 109 |
| **10.7.8. Conclusions** | 111 |
| **10.8. Conclusion**<br>| 124 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 5

---

| | |
|:---|:---|
| **11. Mineral Resource Estimates** | **12**4 |
| **11.1. Introduction** | 124 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.1.1 Point of Reference | 124 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.2. Statistical Analysis | 124 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.3. Interpretation | 126 |
| **11.4. Triangulation** | 127 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.4.1. Topography | 127 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.4.2. Soil Zone | 128 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.4.3. Wireframe Closed | 128 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.5. Data Selection | 130 |
| **11.6. Capping** | 131 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.7. Modelling | 131 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.8. Grade Interpolation and Mineral Resource Classification | 131 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.9. Mineral Resource Classification | 133 |
| **11.10. Density Values for the Block Model** | 133 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.11. Block Model Verification | 134 |
| &nbsp;&nbsp;&nbsp;&nbsp;11.12. Resource Evaluation Results | 136 |
| &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.13. Uncertainty Factors | 136 |
| **12. Mineral Reserves Estimates** | **136** |
| **13. Mining Methods** | **136** |
| **14. Process and Recovery Methods** | **136** |
| **15. Infrastructure** | **137** |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 6

---

| | |
|:---|:---|
| **16. Market Studies** | **137** |
| **17. Environmental Studies, Permitting, and Plants, Negotiations, or Agreements with Local Individuals or Groups** | **137** |
| **18. Capital and Operating Costs** | **141** |
| **19. Economic Analysis** | **141** |
| **20. Adjacent Properties** | **141** |
| **21. Other Relevant Data and Information** | **141** |
| **22. Interpretation and Conclusions** | **141** |
| **23. Recommendations** | **141** |
| **24. References** | **142** |
| **25. Reliance on Information Provided by the Registrant** | **144** |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 7

1. Executive Summary

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.1. Introduction

Mineração Apollo Ltda is a Brazilian company wholly owned by Atlas Critical Minerals Corporation , a Republic of the Marshall Islands corporation (the "Company"), and is the operating entity for the Rio Piracicaba Project (the "Project") described herein. Prior to November 19, 2024, Mineração Apollo Ltda was wholly owned by Apollo Resources Corporation, a private company incorporated in the Republic of the Marshall Islands in 2020, whose focus was iron projects in Brazil. On November 19, 2024, Jupiter Gold Corporation, a publicly traded company incorporated in the Republic of the Marshall Islands in 2016, and Apollo Resources Corporation merged, with Jupiter Gold Corporation becoming the surviving company. On December 24, 2024, Jupiter Gold Corporation changed its name to Atlas Critical Minerals Corporation. Hereinafter, Mineração Apollo Ltda shall be referred to simply as "Apollo".

The purpose of this Technical Report Summary under Regulation S-K 1300 ("TRS S-K 1300" or "TRS") is to present a Mineral Resource Estimation Report, including the initial geological exploration work, the drilling campaign, core logging and sample assaying results. It also includes preliminary mineral processing and metallurgical studies.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.2. Property Description and Location

The Rio Piracicaba Project is in the rural area of the municipality of Rio Piracicaba, state of Minas Gerais in Brazil, at coordinates 19°56'23.9 "S / 43°12'01.7 "W. The Project is located 130 km from Belo Horizonte, capital of the state of Minas Gerais, and is served by paved roads and is also intersected by a railroad used by several mining companies to transport iron ore to the coast.

Apollo holds the title of the mineral right number 833.114/2012, inside of which the Rio Piracicaba Project was developed. This is an area of 188.31 hectares, located next to the Água Limpa iron mine that belongs to Vale S.A.

In Brazil, mineral rights and surface rights are dissociated. Apollo is not the owner of the land on which the exploration permit is held but has the right to access the Project area through agreements with the landowner and permission to conduct exploratory research in the area.

Research work in the area began in 2015, when mineral right 833.114/2012 still belonged to Mr. André Martinez, a Brazilian geologist and unrelated third-party to Apollo. In 2020, Apollo acquired it and became the 100% owner of the mineral right 833.114/2012 and continued the exploratory work.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.3. Geology and Mineralization

The Rio Piracicaba Project is in the Iron Quadrangle, the largest mineral province in Brazil. It contains the Cauê Formation, main iron mineralized materials unit that occurs in the region, consisting of itabirites and other rocks with a high iron content, represented mainly by hematite and magnetite.

The Cauê Formation has its genesis based on chemical sedimentation under stable platform conditions, which made the Lake Superior type iron deposits. The entire Project area falls within the same geological formation, but three iron mineralized lithologies were defined, thus characterizing the deposit: colluvial coverage, friable itabirite and semi-compact itabirite. In the Project area, there is an occurrence of compact itabirite, not considered of economic interest in this context, and an inexpressive manganese mineralization.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 8

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.4. Exploration and Drilling

The investigation into the existence of a mineral potential began in 2012, but in 2015, with the mineral right already in possession of the previous holder before Apollo, who began to conduct research on the property.

Between 2015 and 2020, prospective studies were carried out consisting of geological mapping, surface sampling for technological characterization of the outcropping ore and geophysical work. The last one consists of twelve magnetometer lines, totalizing 4.2 km in a SW-NE grid. With the samples collected, granulochemical and concentration tests were performed in an exploratory way. Based on the positive results of this preliminary phase, a drilling campaign and detailed exploratory work was started.

In February 2021, the preparatory activities for the research of the Rio Piracicaba Project began. Field activities started in March 2021 and drilling began in April 2021, when eleven diamond drill holes were drilled with drill core recovery, totaling 384 m. During this work, nineteen test pits were developed manually and mechanically with a backhoe loader, totalizing 60 m. Twenty-seven hectares were also mapped in detail. The diamond drilling generated fifty-five samples and the sampling of the test pits, fifteen samples, all analyzed in the same laboratory in four granulometric ranges. During this geological exploration work forty-eight density measurements of different lithotypes were made.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.5. Mineral Resource Estimate

The statement has been classified by Qualified Person Volodymyr Myadzel. It has an effective date of March 30, 2022.

---

| | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
|  |  | **VOLUME** | **TONNES** | **DENSITY** | **Fe** | **Si** | **Al** | **Mn** | **P** | **PPC** |
| **CLASS** | **TYPE** | M³ | t | (t/m³) | pct | pct | pct | pct | pct | pct |
| Indicated | **FRIABLE ITABIRITE** | 853593 | 2646141 | 3.10 | 33.74 | 46.50 | 1.97 | 1.04 | 0.02 | 121 |
|  | **COLLUVIUM** | 67725 | 121905 | 1.80 | 31.11 | 33.17 | 10.99 | 1.03 | 0.05 | 8.06 |
| Inferred | **FRIABLE ITABIRITE** | 1025538 | 3179166 | 3.10 | 31.61 | 44.97 | 2.92 | 3.14 | 0.02 | 1.75 |
|  | **COMPACT ITABIRITE** | 581006 | 1905701 | 3.28 | 28.35 | 57.68 | 0.92 | 0.06 | 0.01 | 030 |
| **TOTAL** | **TOTAL** | 2527863 | 7852912 | 3.11 | 31.53 | 48.39 | 2.24 | 1.65 | 0.02 | 1.31 |

---

**Table 1.5-1: Rio Piracicaba Project –Mineral Resource Grade Tonnage Report**

The following disclosures apply to the summary table above:

1. The
 definitions for Mineral Resources in Regulation S-K 1300 were followed for Mineral
 Resources.

2. Mineral
 Re sources are estimated at a cut-off grade of 20% iron.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3. Mineral Resources are estimated using a
 long-term iron ore price of US$90 per dry metric tonne for the Platts/IODEX 62% iron
 fines CFR China, and US$/BRL exchange rate of 5.25.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4. Reasonable prospects for economic extraction
 were determined by benchmarking similar operations and developing a 20% iron cut-off
 grade based on operating costs.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5. The effective date is March 30, 2022.

The resources were classified as Indicated and Inferred according to the degree of reliability of the different rounds and data used for the interpolation of the block model.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1.6. Conclusions and Recommendations

The works and results of this research presented refer to the mineral right 833.114/2012, exploration permit No. 12.891, published in the Official Gazette on 10/26/2015, extended on 03/23/2020 owned by Apollo. Out of a total of 188.31 hectares of the mineral right area, only 23.2 hectares have been explored and are presented in this report.

The Rio Piracicaba Project is an iron ore deposit, inserted in Fm. Cauê: the occurrence of iron is constituted by siliceous friable itabirite, semi-compact friable itabirite and colluvium/rolled with less expression. These iron formations cover practically 23.2 ha of researched area. Even though they were not exposed, all the drill holes intercepted them. The thickness of these potentially mineralized formations ranges from 16m to 20m, dipping at a low angle (<30°) to SE. Considering these thicknesses and density of 2.7g/cm³, the potential varies from 10 to 13 million tons of in situ material. The global iron content ranges from 31 to 32% Fe, based on the global results of chemical analyzes presented in item 11 of this report.

Sample preparation, assaying and security are acceptable at this exploration stage.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 9

No duplicates were applied in the QA/QC program of Apollo in the Rio Piracicaba Project, which makes the program incomplete, as the analysis precision (the ability to consistently reproduce a measurement in similar conditions) cannot be verified.

For exploration next phases, the QA/QC program must be improved, including field duplicates, coarse and pulp duplicates. Blanks must be inserted as coarse samples as the first sample of the lots. There must also be a medium grade standard inserted in the QA/QC program. In the QP's opinion, the sample preparation, analysis, security procedures and database verification at Rio Piracicaba Project comply with industry standards and are adequate for use in the estimation of Mineral Resources

Wet granulochemical tests and a preliminary concentration study were carried out in surface samples. Based on the results obtained, it is possible to demonstrate that friable itabirite presents characteristics that allow the application of magnetic separation as a concentration methodology.

The best magnetic separation route was to pre-concentrate the ore at top size of 2 mm using a DryMAG at 3000 Gauss, then grinding to P80 of 0.300 mm followed by wet magnetic separation at 4000 Gauss using a MIMS and at 11000 using a WHIMS (equipment shown in Figure 2). Final concentrate grade yield by this route was 64.2% Fe and iron recovery of 83.4%. The QP is of the opinion that the data derived from the testing activities described above are adequate for the purposes of defining a Mineral Resource.

It is necessary to carry on with exploration works up to a minimum 100m x 100m drillholes grid spacing and to develop a more in-depth process route study for the types of itabirites: siliceous friable itabirite - IFS and semi-compact itabirite - ISC, seeking gravimetric, magnetic and flotation concentration options.

A validation procedure is in progress for all the exploration work carried out so far, in order to guarantee compliance with the best technical practices in the industry. The validation includes checks on the quality of the topographic surveys, the execution of the drilling, drill core logging, sampling, and the practices in the contracted laboratory. In addition, the validity of using samples from wells and channels will be verified.

After this validation process, a geological model will be developed to support the continued exploration work.

Estimated costs of the work program are shown in the table below.

---

| | |
|:---|:---|
| **Item** | **Cost (US$)** |
| Additional Diamond Drilling | 120000.00 |
| Additional Chemical Analysis and QA/QC | 15000.00 |
| Technical Services for Mineral Resource Estimation | 30000.00 |
| Other Direct and Indirect Costs | 10000.00 |
| **TOTAL** | **175000.00** |

---

**Table 1.6-1 Proposed Budget for Recommended Work**

2. Introduction

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.1. Terms of Reference and Purpose of the Report

Apollo commissioned Volodymyr Myadzel and Orlando Garcia Rocha Filho to prepare a technical report summary ("TRS") compliant with Regulation S-K 1300 for a Mineral Resource Estimation Report of the Rio Piracicaba Project (Rio Piracicaba Project or the Project) located in Brazil in 2022 . The information and studies conducted by them are incorporated in this updated version of the TRS as such information continues to remain current. Apollo also commissioned Bruno Vieira to prepare the environmental update included in Section 17 of the TRS. The quality of information, conclusions, and estimates contained herein are consistent with the level of effort involved in each of Messrs. Myadzel's, Rocha's and Vieira's (each a "Consultant") services, based on: i) information available at the time of preparation, ii) data supplied by outside sources, and iii) the assumptions, conditions, and qualifications set forth in this report. This TRS is intended for use by Apollo and the Company subject to the terms and conditions of the contract with the Consultants and relevant securities legislation. Except for the purposes legislated under provincial securities law, any other use of this report by any third party is at that party's sole risk. The responsibility for this disclosure remains with Apollo and the Company . The user of this document should ensure that this is the most recent technical report for the property as it is not valid if a new technical report has been issued.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 10

The purpose of this technical report is to present a Mineral Resource Estimation Report, including: the initial geological exploration work, the drilling campaign, core logging and sample assaying results, preliminary mineral processing and metallurgical and environmental studies, permitting and social or community impact.

In addition, the document intends to suggest some recommendations for further development of the Rio Piracicaba Project and to document the data obtained so far, in order to focus on the search for investors and to continue the exploration work.

The technical information, on which this report is based, represents a compilation of work already carried out by Apollo and independent consulting firms. The geological exploration was executed by RCS Geologia e Meio Ambiente Ltda ("RCS"); this work included geological mapping, topography, drilling supervision, description and the drill core and wells sampling. Regarding the mineral technology development activities, tests and assays were made by two research centers, the Gorceix Foundation and CIT Senai. For environmental issues, a company specialized in the subject is carrying out environmental studies on the property, Geoline, was used.

Information on the mineral right title history was obtained from the National Mining Agency (Agência Nacional de Mineração – ANM).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.2. Qualifications of Consultants

The Consultants preparing this technical report are specialists in the fields of geology, exploration, mineral resource and mineral reserve estimation and classification.

The following individuals, by virtue of their education, experience and professional association, are each considered a Qualified Person (QP) as defined in Regulation S-K 1300 and are members in good standing of appropriate professional institutions.

**●** **QP Volodymyr Myadzel, PhD, MAIG, Geologist, is responsible for items 1, 2, and 10 through 25 of this TRS.** 

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 11

Mr. Myadzel is a Principal Geologist of VMG Consultoria e Soluções Ltda., located at Av. do Contorno, 2905, Suite 406, Belo Horizonte, MG 30110-915, Brazil. He graduated with a degree in Geology from Kryvyi Rih National University, Kryvyi Rih, Ukraine in 1999. In addition, he obtained a PhD in Geology from Kryvyi Rih National University, Kryvyi Rih, Ukraine in 2004. He is Member #3974 of the Australasian Institute of Geoscientists. Mr. Myadzel has been working as a Geologist for a total of 26 years since graduation from university. His relevant experience includes modeling and resource and reserve estimation of deposits, prospecting and surveying, geological mapping, mineralogy and petrology of metamorphic rocks and ore deposits, and in particular iron deposits.

**●** **QP Orlando Garcia Rocha Filho, GAC, CREA, Geologist, is responsible for items 3 through 10 of this TRS.** 

Mr. Rocha is a Principal Geologist at RCS Geologia e Meio Ambiente Ltda, located at Rua João Mota, nº 372, Suite 301, Centro, Santa Bárbara, MG 35.960-000, Brazil, since 2011. He graduated in Geology from the Federal University of Rio Grande do Norte, Brazil in 1992. He is Member #20708 of the Geological Association of Canada. He is Member # 3484D/MG of CREA (Regional Council of Engineering and Agronomy) of the state of Minas Gerais in Brazil. Mr. Rocha has been actively working as a Geologist for 32 years. His relevant experience includes modeling and estimating resource and deposit reserves, prospecting and surveying, geological mapping, mineralogy and petrology of metamorphic rocks and ore deposits, particularly of iron ore deposits.

● QP Bruno Vieira Pereira, CREA, Environmental Engineer, is responsible for item 17 of this TRS.

Mr. Vieira is a technical coordinator at Geoline Engenharia Ltda., located at R. Amapá, 163 - Amazonas, Contagem - MG, 32240-010, Brazil, since 2012. He graduated in enviromental engineer from the FUMEC University in Belo Horizonte, Minas Gerais in 2008. Specialization in Occupational Safety Engineering - Federal University of Minas Gerais - 2010. He is member #113.029/D of CREA (Regional Council of Engineering and Agronomy) of the state of Minas Gerais in Brazil. He is also a partner at Geoline Mineração Ltda., company created for mineral exploration. Mr. Vieira has been actively working as an Environmental Engineer for more than 12 years. His relevant experience includes experience in coordinating multidisciplinary teams for environmental licensing and implementation processes (EIA/RIMA – RCA/PCA). Supervision and management of speleological and archaeological studies within the limits of the Lagoa Santa Karst Environmental Protection Area, erosion control activities and implementation of Degraded Area Recovery Plans - PRAD, Coordination of Atlantic Forest Compensation Plans, preparation of Flora Reconstitution Project - PTRF, hydrological and hydraulic studies, Due Diligence, environmental assessment and feasibility strategy for projects and properties, technical and expert reports. Experience in preparing Solid Waste Management Plans - PGRS and civil construction plans - RCC for infrastructure projects. Participation in inspections and meetings with environmental agencies and CODEMAS, public hearings, Land Regularization Program, Master Plan and monitoring of environmental licenses and conditions. Knowledge of software related to data processing: Microsoft Excel, Word, AutoCad, Corel Draw and geoprocessing: GPS TrackMaker and basic knowledge of Arcgis.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.3. Details of Inspection

The exploration works of the Rio Piracicaba Iron Project occurred over the March to July 2021 time period.

RCS, the company hired by Apollo to oversee the exploration, kept its own technical team dedicated to the Project and used local labor for support.

During this period, several works were developed, from the first geological and topographical recognition to the drilling. Besides the technician that followed full time the drilling process, guiding operational, safety and environmental issues, RCS provided a geologist and a senior geologist for the geological mapping, description and sampling of drill cores, channel samples and research test pits.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.4. Sources of Information

Information used to support this TRS is included within the body of this TRS or in the documents listed in the References section of this TRS.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.5. Effective Date

The effective date of the data stated herein is March 30, 2022.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2.6. Units of Measure

Unless otherwise indicated, all measurements reported herein are in metric units, tons, and all costs, revenues and amounts are expressed in U.S. dollars (USD or US$) at the foreign exchange rate of $1 USD = 5.25 BRL as of the report's effective date.

Some data with units of measurement used in Brazil will be preserved to maintain the originality of the work.

3. Property Description

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.1. Project Location

The property is located in the rural area of the Rio Piracicaba city, in the central-eastern part of the state of Minas Gerais, more precisely near Morro do Elegant, and adjacent to Vale's Mina Aqua Limpa. (Figure 3.1-1).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 12

![](ex96-1_005.jpg)

**Figure 3.1-1: Situation map and mineral right location**

As can be seen on Figure 3.1-1, access, from Belo Horizonte, is on highway BR-381, traveling 115 km east, until the intersection of Bela Vista de Minas city, then 15 km south on MG-123, until the municipality of Rio Piracicaba.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.2. Permit Status

Apollo is not the owner of the property, referring to the surface area of the exploration permit site, shown on Figure 3.2-1. Apollo is the owner of the subsurface mineral right, and the owner of the surface land is a third-party enterprise, described below.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 13

**Figure 3.2-1: Exploration Permit Limit and researched area**

The surface landowner in the researched area is the company W. Martins Representações Imobiliárias Ltda. The company is a real estate company based in Nova Lima, state of Minas Gerais. There is an access agreement to the researched area between Apollo and the company that owns the property and, therefore, it was possible to carry out the mineral exploration work (or research work) described.

Apollo also has a mining servitude published in the Official Gazette of the Union on December 20, 2022 for the pit, access and infrastructure areas that were recognized by the National Mining Agency as areas of public interest and utility, essential to the project, according to Decree-Law No. 227, of February 28, 1967 and Decree 9,406, of June 12, 2018.

The established easement allows the execution of the work of opening the pit, access and support structures for iron ore mining, being essential and adequate to meet the project. The establishment of this easement area facilitates and promotes the necessary agreement with the property owners for mining activities.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 14

The remaining mineral right is owned by the mining company Vale S.A. In this area coinciding with the polygon of Apollo's exploration permit, Vale S.A. has facilities to support the operation of the Morro Agudo and Água Limpa Mine, such as a tailings dam, rail terminal and operational and service roads. After numerous attempts, it was not possible to conclude an access agreement to the area with Vale S.A., therefore, Apollo took legal action to have its rights upheld.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.3. History of the Mineral Right

The area was originally requested in 2010, by Mr. André Luis Martinez Ferreira, generating in the former National Department of Mineral production (Departamento Nacional de Produção Mineral – DNPM), later renamed National Mining Agency (Agência Nacional de Mineração – ANM), the mineral right 833.114/2012, after a unique qualification to an Availability Notice.

On November 20, 2020, a request was made to transfer the mineral right to Apollo. This transfer was approved by ANM, on April 16, 2021, and is currently fully under the responsibility and rights of Apollo.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.3.1. Mineral Right 832.945/1995

In the 1990's, the exploration work was carried out by the contractor Herbert Engler. The research request was filed incomplete on May 5, 1995, and complemented on July 5, 1995.

On January 11, 1999, they filed a request for reconsideration, which was again rejected.

On February 9, 2000, the contractor's withdraw of the area was published, then the area was available again.

On October 23, 2000, the area was requested by the J. Mendes Mineração group. The exploration permit has been published on May 9, 2001, and it is valid for 3 years.

On October 1, 2004, the company requested an extension of the deadline for the exploration permit and on August 25, 2006, the start of the research work was announced.

On October 21, 2008, there was an approved transfer of rights to the company JMN Mineração S/A.

On February 6, 2009, the company submitted a negative survey report, as it ended up not doing the surveys because at the time it concentrated its efforts on selling its mines to Usiminas Mineração S.A.

Thus, on October 5, 2010, the availability notice was released, and Mr. André Martinez was the only bidder in this call for proposals.

The summary of the mineral right is presented on Figure 3.3.1-1 and Figure 3.3.1-2, taken from the Mining Register of ANM:

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 15

![](ex96-1_006.jpg)

![](ex96-1_007.jpg)

**Figure 3.3.1-1: Summary of mineral right 832.945/1995, owned by Herbert Engler and the company JMN Mineração S/A.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 16

![](ex96-1_008.jpg)

**Figure 3.3.1-2: Polygonal of mineral right 832.945/1995, owned by Herbert Engler and the company JMN Mineração S/A.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.3.2. Mineral Right 833.114/2012

With availability having a single proponent, it becomes a common research request. Thus, in 2012, the research request no. 833.114/2012 was generated.

The research request was generated on October 1, 2012, along with the proof of collection of emoluments and the Research Work Plans, having its exploration permit for 3 years published on October 26, 2015, and extended on March 23, 2020.

The research work then began to be carried out, where geological recognition, soil geochemistry, opening of test pits and trenches, auger holes, geological mapping, chemical analyses, and processing tests were performed.

On August 27, 2018, the permit extension request was submitted, delivering a Partial Exploration Report, and on March 23, 2020, the deadline extension was published for another 2 years, until March 23, 2022.

On November 20,<sup>,</sup> 2020, a request was made to transfer the mineral right to Apollo. This transfer was approved by ANM, and the mineral right is currently fully under the responsibility and rights of Apollo.

On December 20, 2022, the mining easement approved as per Apollo's request was published in the Federal Official Gazette.

On December 22, 2022, the Final Positive Research Report (FPRR) was filed and approved on May 23, 2023.

On May 27, 2025, the Mining Concession nº 675 granted by the Ministry of Mines and Energy was published in the Federal Official Gazette.

The summary of the mineral right appears on Figure 3.3.2-1 and Figure 3.3.2-2, taken from the Mining Register of ANM:

![](ex96-1_009.jpg)

![](ex96-1_010.jpg)

**Figure 3.3.2-1:** Summary of mineral right 833.114/2012, owned by Apollo.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 17

**Figure 3.3.2-2: Polygonal of mineral right 833.114/2012, owned by Apollo.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 18

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.4. Legal Status

The research area is within the limits of the Exploration Permit No. 12.891 published in the Federal Official Gazette (Diário Oficial da União - DOU) on October 26, 2015, and ANM mineral right No. 833.114/2012 with an initial area of 259.56 ha, under the ownership of Apollo.

A Partial Research Report (Relatório Parcial de Pesquisa - RPP) was filed on July 25, 2019, having its exploration permit renewed on March 23, 2020, for 2 more years, when a final research report must be submitted to ANM. It would have expired on March 23, 2022, except that because of Covid-19 the timeline for all such filings has been extended to October 1<sup>st</sup> , 2023.

A Final Positive Research Report (Relatório Final de Pesquisa Positivo – RFPP) was filed on December 22, 2022 and approved on May 23, 2023 with a reduction of area from 259.56 ha to 188.31 ha, removing just the area of the Água Limpa dam from Vale S/A, which is its final area as a Mining Concession nº 675, a title awarded by the Ministry of Mines and Energy on May 27, 2025.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5. Brazilian Mineral Legislation

According to the Brazilian Constitution, the right to explore and exploit mineral resources can only occur with federal authorization or concession and only Brazilian citizens or companies organized under Brazilian law and headquartered in the country may be able to exercise such activities and thus obtain mineral rights.

Additionally, the mineral right in Brazil is governed by the Mining Code and its rules are regulated by the ANM, which is the government agency that controls mining activities throughout the country.

The ANM is "responsible for organizing the administration of mineral resources, the mineral production industry and the distribution, trade and consumption of mineral products" (Art. 3 – Decree N° 9406/2018 - Mining Code Regulation).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.1. The Right of Priority and the Free Area

The Mining Code Regulation states that:

"Art. 7: The interested party whose mineral right application has as its object an area considered free for the intended purpose on the date of the filing of the application at ANM, is assured the right of priority to obtain the mining title, provided that the other requirements established in Decree-Law No. 227 of 1967 - Mining Code, this Decree and related legislation are met."

"Art. 16 - Authorization for research shall be granted to a Brazilian individual, a company incorporated under Brazilian law with its head office and administration in Brazil or a cooperative, upon application to the ANM, which shall contain the instruction elements in the art. 16 of Decree-Law No. 227 of 1967 - Mining Code and shall comply with the requirements established in a Resolution issued by the ANM."

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.2. Research Authorization

"Art. 20 – The research authorization shall have the title of permit, an extract of which shall be published in the Federal Official Gazette and the contents of which shall be transcribed to the ANM register."

"Art. 21 - The validity period of the research authorization shall not be shorter than one year, nor longer than three years, at the discretion of the ANM, taking into account the special characteristics of the area and the mineral research objectivated, a single extension being allowed under the following conditions:

I - The extension may be granted for up to the same period, based on the evaluation of the development of the works; and

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 19

II - The extension must be requested up to sixty days before the term of the authorization in effect expires and the request must be accompanied by a report on the work carried out and justification for continuing with the research.

§ 1° The extension shall not depend on the issuance of a new permission and its term shall be counted from the date of publication of the decision that grants it in the Federal Official Gazette\*.

§ 2° More than one extension of the period of the research authorization is allowed exclusively in cases of impediment of access to the research area or lack of consent or license from the competent environmental agency, provided that the holder demonstrates, by means of supporting documents, that:

I - complied with the steps and notifications made in the course of the judicial evaluation process or determined by the competent environmental agency, according to the hypothesis; and

II - failed to contribute, by action or omission, to the failure to enter the area or issue the consent or environmental license.

§ 3° Until there is a decision on the application to extend the deadline presented in a timely manner, the research authorization will remain valid."

"Art. 24 - The extraction of mineral substances is admitted, exceptionally, in an area titled before the granting of the mining concession, by means of previous authorization by ANM, observing the pertinent environmental legislation.

Sole paragraph. The authorization referred to in the caput will be issued once, for a period of one to three years, with an extension for up to the same period, according to the particularities of the mineral substance, under the terms of a Resolution of ANM.

(\*) Federal Official Gazette: The official journal of the federal government of Brazil (Diário Oficial da União - DOU).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.3. Exploration Permit

The research is part of the Mineral Exploration Authorization Regime in which the works intended for the definition of the deposit, its evaluation, and the determination of the feasibility of its economic exploitation are performed. The exploration authorization phase precedes the mining concession phase.

According to the Mining Code, mineral research includes, among others, the following field and laboratory work: detailed geological research of the area to be investigated, on a convenient scale; studies of outcrops and their correlations; geophysical and geochemical research; opening of visitable excavations and execution of drillings in the ore body; systematic sampling; physical and chemical assays of the samples and drill cores; and tests for processing the ores or useful mineral substances, to obtain concentrates in accordance with market specifications or for industrial use.

The authorizing tenure is the Exploration Permit, granted by the ANM Director General and published in the Federal Official Gazette (Diário Oficial da União - DOU). The period to carry out the research will be 2 or 3 years, depending on the special characteristics of the area's location and the nature of the mineral substance.

The maximum areas granted vary from 50 to 2,000 hectares, depending on the mineral substance and its use. Only in the legal Amazon, whose area is considered difficult to access, that the maximum area is 10,000 hectares. Substances classified as monopoly (oil, gas and radioactive elements, such as uranium) cannot be applied for at ANM.

Under this regime the applicant does not need to be the owner of the land, but to have his authorization to enter the property and comply with the research plan established in the application.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 20

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.4. Final Research Report

"Art. 25 - Upon conclusion of the work, the titleholder shall submit to the ANM a final report of the research work carried out, in accordance with the provisions of an ANM Resolution.

§ 1° The title holder of an authorization is obliged to present, within the period of its validity, a final report of the work carried out regardless of the result of the research.

§ 2° The minimum content and guidelines for the preparation of the final report shall be defined in an ANM Resolution, in accordance with international best practices.

§ 3° If, at the end of the period of validity of the authorization or its extension, the holder fails to submit the report referred to in this article, the transcript of the research authorization will be discharged and the area declared available for research, as provided for in art. 26 of Decree-Law No. 227 of 1967 - Mining Code, without prejudice to the provisions of art. 55 of this Decree."

Art. 26 - Once the research is executed and the final report referred to in Art. 25 is presented, the ANM shall verify its accuracy and, in view of a conclusive opinion, shall issue an order of:

I - Approval of the report, when the existence of a technically and economically usable deposit is demonstrated.

II - non-approval of the report, when the insufficiency of the research work or technical deficiency in its elaboration is verified, which makes it impossible to evaluate the deposit.

III - filing of the report, when the inexistence of a deposit that is technically and economically usable is proven, and the area becomes free for future application; or

IV - suspension of the decision on the report, when it is characterized as an impossibility of sensibility of the technical and economic feasibility of the mining, according to the provisions of art. 23, caput, item III, of Decree-Law No. 227, of 1967 - Mining Code.

§ 1° The ANM will establish, in a Resolution, the criteria and procedures for verifying the accuracy of the final research report, including the hypotheses in which the on-site inspection will be waived.

§ 2° In the case provided for in item II of the caput, verified the technical deficiency in the preparation of the report, the ANM may require a form to be fulfilled by the titleholder of the mineral right within a period of sixty days, extendable for an equal period, at the discretion of the ANM, from that the application for extension is justified and presented within the period granted to comply with the requirement.

§ 3° Once the period has expired without the application having complied with the requirement referred to in § 2°, the ANM must deny approval of the final report and declare the area available, as provided for in art. 26 of Decree-Law No. 227 of 1967 - Mining Code.

§ 4° In the event provided for in item IV of the caput, the ANM shall establish, in the act of suspension, a period for the interest to present a new study of the technical-economic feasibility of the mining, under penalty of filing the report.

§ 5° If the new study referred to in § 4° proves the technical-economic feasibility of the mine, the ANM will issue an order approving the report."

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.5.5. Maintenance of the Mineral Right

In order to maintain valid mining concession, the holder must:

● submit annual mining report;

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 21

● extract only the mineral substances indicated in the Mining Concession;

● report the discovery of any other mineral substance not included in the Mining Concession;

● carry out mining work in compliance with regulatory standards and environmental licensing;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.6. Environmental Liabilities and Permitting

See **item 17** of this report.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3.7. Other Significant Factors and Risks

There are no other risks or significant factors known at this time that may affect access, title, or the right or ability to form work on the Project.

4. Accessibility, Climate, Local Resources, Infrastructure and Physiography

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4.1. Accessibility

The access from Belo Horizonte city, capital of Minas Gerais state, can be made by road through BR-381, until the intersection of Bela Vista de Minas city, from which it follows through MG-123, until Rio Piracicaba city, totalizing about 130 km of travel (Figure 4.1-1).

There is a railway line that passes within the limits of the mineral right, used by the mining company Vale to transport its iron ore to the coast.

![](ex96-1_012.jpg)

**Figure 3.5.5-1: Access roads to Rio Piracicaba city from Belo Horizonte city**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 22

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4.2. Climate

According to Köppen's climate classification, part of the area has Cwa climate characteristics (humid, subtropical), while the higher regions have Cwb type characteristics (dry savannah). However, it is worth mentioning that, for Belo Horizonte and surroundings, due to anthropic actions and environmental changes, today's climate is of the Aw or tropical type.

The local temperature variability of the region can be considered low as can be seen by the thermal amplitude values that vary from 5.3°C (average temperature), 5.1°C (minimum temperature) and 6°C (maximum temperature). This behavior reflects the tropical nature of the local climate, even though a significant seasonal variation is verified.

The highest average maximum temperatures throughout the year are recorded in the January-February-March quarter, with temperatures of 27.6°C, 28.2°C and 27.9°C, respectively. The lowest average minimum temperatures throughout the year are recorded in the winter months of June, July and August, with temperatures of 13.3°C, 12.3°C and 13.5°C, respectively. The absolute maximum temperatures usually occur in the months of February and March, with records higher than 27.9°C. These temperatures occur in the summer, a period that typically presents higher temperatures. The absolute minimum temperatures occur in the months of June to September, with records lower than 13°C.

Regarding precipitation, the average total rainfall throughout the year for the region is 1,265.6 mm, which in turn is marked by a large inter-annual variation (one dry and one rainy period) with a monthly average of 105.5 mm. The rainiest months extend from October to March. The months of June through August, in turn, are months marked by the dry season in the region. However, due to the atmospheric dynamics and the action of various elements interacting and altering this dynamic, both the dry and rainy seasons can suffer intra and inter-annual variations.

The months of the November-December-January quarter present the highest precipitation in the period, a total of 703.7 mm. On the other hand, in the June-July-August quarter, due to low convective activity, the values do not exceed 38.6 mm in total, as the region is under the action of the South Atlantic Anticyclone, inducing a characteristic dry period.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4.3. Physiography

Three large geomorphological domains can be observed in the region, which were denominated Peripheral Depression of the São Francisco, Iron Quadrilateral and the Mountains, Levels and Espinhaço scarps.

Part of the area is framed morphologically in the São Francisco Depression, with tabular hills and karstic modeling in the domains of the Bambuí Group. Further north in the Project region, there are areas of high topography (up to 1,300m) that characterize the Iron Quadrangle, with dissections and erosive scarps. At the eastern limit occur the high modeled surfaces of the Espinhaço with erosive scarps, as shown on Figure 4.3-1.

Geomorphologically, two main domains occur: zones of hills and flattened surfaces.

The first unit corresponds to the relief forms sculpted in the granite-gneiss rocks, constituting hills with flattened or not tops, hills with into valleys and sparse ridges and, finally, hills with ravined slopes and inserted valleys resulting from the pediplanation of the Velhas Cycle (Upper Tertiary to Pleistocene).

The second unit corresponds to the relief forms sculpted in rocks of the Bambuí Group, corresponding to the hills with ravinated slopes and fitted valleys in the Jaboticatubas region, occurring to the south wavy surfaces in depressions (karstic), hills with fitted valleys or, still, hills with flattened tops from the South American Cycle (Lower Tertiary).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 23

The geomorphological unit of the Iron Quadrangle corresponds to the shapes carved in the rocks of the Minas and Rio das Velhas supergroups, which are the top of the Curral mountain range and ridges with ravinated slopes and fitted valleys, besides the plan surfaces with peaks in the Cambotas mountain range. The top of the Curral mountain range, above 1,000 m, is attributed to the Post-Gondwana Cycle, while most of the area with dissected surfaces corresponds to the Velhas Cycle.

The Mountains, Levels and Espinhaço scarps unit corresponds to the shapes carved in rocks of the Macaúbas Group and Espinhaço Supergroup, with altitudes of up to 1,400 m. The dominant forms correspond to ridges with ravined slopes and embedded valleys and locally occur flattened surfaces with sporadic ridges and pontoons.

To the west occur the foothills of Cordilheira do Espinhaço, which is separated from the mountain ranges that constitute the Iron Quadrangle by a depression formed by hills of a more or less rounded type, discretely oriented in a north-northeast direction, interspersed by drainages fitted in V-shaped valleys.

To the northeast, following the structured direction of the Iron Quadrangle, the predominant relief is of the "sea of hills" type with accentuated slopes and flat bottom valleys (U-shaped profile).

In summary, the geomorphological structuring of the region is conditioned to the geological substratum. The property of interest is inserted in a region, which in its great part is supported by a sequence of itabirite rocks in altitudes that reach around 1,500 m in the crests of the mountains.

This surface, partly flattened or slightly undulated, corresponds to the planning surface defined by King (1956) as the post-Gondwana Surface. The surrounding, lower areas correspond to portions of the terrain underlain by less competent and more friable lithologies, such as dolomitic rocks to the north and pelitic rocks to the south. These areas have an accentuated to abrupt topographic step in relation to the one dominated by itabirites (leveling around 1000 m). Such surface would be inserted in the compartment called South American Surface, which, as well as the former, would constitute remnants of a wider regional context.

The surrounding areas are leveled off at a lower altitude and juvenile surface, known as the Velhas Surface. This compartment is characterized by an accentuated fit of drainages and constant retreat promoted by erosion.

![](ex96-1_013.jpg)

**Figure 3.5.5-1: Topography map of the Rio Piracicaba Project region**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 24

The existing soil types in the area are completely conditioned to the lithological compartments present. The predominance of an unstable geodynamic environment has favored the formation of poorly developed soils associated with shallow levels of surface alteration of the recurrent lithologies and exposure of rock outcroppings. In the highest parts the vegetation characteristics are cerrado and campo.

Due to lithostructural and topographic factors, there is the presence of dystrophic cambisols, red-yellowish dystrophic latosols and red-yellowish dystrophic or eutrophic podzolic soils. In the higher regions there is an association of cambisols and lithosols.

Thus, the soils characterized in the area surrounding the Project are as follows (IBRAM, 2003):

● Red Ferriferous Latosol: these are soils with latsolic B horizon and high iron content (above 36%). These soils are associated with the outcropping areas of the Itabiritic sequences and in their lower areas with accumulation of sediments (detrital soils).

● Goethitic Laterite Coverages: associated to the transition areas between the itabiritic and dolomitic units there is a laterite covering composed essentially of goethitic material. These coverages occur in situ covering altered/hydrothermal rocks of ochre color. This material is possibly associated with the intemperate alteration of this subsequent lithology, where the variation of the water table promoted the intense lateritization of the coverages.

The vegetation presents residual portions of tropical subcaducifolia forest, which represent remnants of the mighty forest whose destruction was initiated in the XVIII century due to human occupation. In the median NW region of the region, the vegetation presents characteristics of cerrado, while most of it falls into the field characteristics, due to anthropic actions, occurring strips of subperenifolia forest.

The explored region is north of the Piracicaba River, which flows only about 100 m from the mineral right, belonging then to its Sub-basin subordinated to the Rio Doce Basin (Figure 4.3-2).

The Rio Doce Basin is a Brazilian hydrographic basin located in the Southeast Region of the country. It belongs to the Southeast Atlantic hydrographical region and comprises a drainage area of 83,400 km², of which 86% belongs to the state of Minas Gerais, in the so-called Rio Doce Valley, and 14% to the state of Espirito Santo, reaching 222 counties.

The headwaters of the Doce river are in Minas Gerais, in the Mantiqueira and Espinhaço Mountains, and its waters travel 853 km until reaching the Atlantic Ocean in the town of Regência, in Espirito Santo.

The main affluents of the Doce river are the Carmo, Piracicaba, Santo Antônio, Corrente Grande, Suaçuí Pequeno, Suaçuí Grande, São José and Pancas rivers (left margin); Casca, Matipó, Caratinga/Cuieté, Manhuaçu, Guandu and Santa Joana rivers (right margin).

The average flows in the basin are higher in the affluents of the left margin, in the high and medium sections (15 to 35 L/s.km²). On the other hand, the region with the lowest average specific outflows (5 to 10 l/s.km²) corresponds to the Suaçuí Grande basin.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 25

![](ex96-1_014.jpg)

**Figure 3.5.5-2: Map of the Rio Doce Basin**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4.4. Local Resources and Infrastructure

The Rio Piracicaba city has an estimated population of 14,332 inhabitants, with a demographic density of 37.93 inhabitants per km². It has a GDP per capita of US$6,542.19, and an HDI of 0.685. The city has 6 SUS health facilities (IBGE, 2020).

The region's economy is mainly driven by iron ore mining, concentrated in the Barão de Cocais, Rio Piracicaba, João Monlevade, and Itabira regions, and gold mining in the Santa Bárbara region.

Some of the biggest Brazilian iron ore deposits (excluding Carajás) are located regionally and are being explored by large mining companies such as Vale and SAMITRI (now part of Vale), besides other smaller ones.

The iron ore extracted in the region is loaded at the rail loop called "Pera Ferroviária de Bicas" and then taken by train to the port of Tubarão, in the state of Espírito Santo, from where it is exported. The Vitória-Minas Railroad (Figure 4.4-1), crosses and serves the city, and is also the only one to offer passenger train services that are still running daily. The railroad station is located on the main avenue of the city a few meters from the bus station. The Rio Piracicaba Project region also has an expressive highway network, which links the large industrial and mining centers.

The mineral vocation of Minas Gerais propitiated the development of an industrial park, strongly based on the steel industry, where large companies stand out among the largest national producers.

The region is also home to emerald and alexandrite exploration properties and mines.

As a secondary activity, reforestation is developed for charcoal production, in addition to subsistence agriculture and dairy farming.

Civil construction is a great consumer of materials such as gravel, coming from gneiss or limestone quarries, and sand coming from the alluvial deposits and terraces of the local rivers.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 26

**Figure 3.5.5-1: Vitória-Minas Railroad, responsible for taking iron ore shipments from the Rio Piracicaba Project region to the Tubarão port.**

5. History

Apollo is 100% owner of the exploration permit for mineral right 833.114/2012 and declares that it is not aware of previous exploration work carried out in the area presented in this report.

The information described below in this item does not refer to work conducted inside the current property boundaries.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1. Geological Exploration and Research History

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1.1. History of Mining in the region

During the late 17th century until the mid-18th century, the mining economy was in full swing, driven mainly by the extraction of gold and other minerals in the province of Minas Gerais, which also caused important social transformations. What was until then a little inhabited and unknown portion of the Brazilian territory, started to receive noblemen interested in its newly discovered precious metals and a large contingent of slave labor to work the gold, especially in the region that encompasses the cities of Ouro Preto and Mariana. A large number of prospectors, merchants and entire families also came to the entire Iron Quadrangle, in search of a better quality of life.

The province of Minas Gerais was then responsible for most of the gold production in Brazil, establishing itself as the hub of Brazilian mining at that time and as an important political and administrative region. The existence of a large amount of mineral wealth strengthened the ties between the Portuguese Crown and the Colony, and it was of significant importance to establish a capital for the province, which came about with the choice of Vila Rica (now Ouro Preto) in 1720 for such a function. From then on, the control and management of the auriferous production began to consolidate, guaranteeing for centuries the sovereignty of the Portuguese Empire over the Colony.

In the colonial period, the configuration of the mining cities differed from the reality of life on the sugar cane and coffee plantations, structured to meet the demands and needs of their inhabitants, both in the big house and the slave quarters. In the midst of the urbanized centers that were beginning to emerge, blacks and whites, free or not, lived together in search of the riches that were prominent in the lands of Minas Gerais. The enslaved individuals, even subordinated to their masters, saw in mining the possibility of achieving more than wealth, freedom itself. This could come through the loss of gold or through escape, made easier by the fact that they were not under their master's supervision at all times.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 27

The Monlevade and Rio Piracicaba quadrangles are known for containing two large iron ore deposits and several smaller ones, as well as a small manganese deposit and numerous prospects for manganese. Other valuable mineral resources include alluvial deposits of gold, mica, semi-precious stones, building stones and clay.

During this study, from 1957 to 1959, only the Andrade, the largest of the known iron ore deposits, was being mined; the other deposits, although known for many years, were idle. The Água Limpa Manganese deposit was being mined, and several of the smaller manganese occurrences were being prospected. Mica was being produced from the Pé de Serra pegmatite mine, and the Talho Aberto pegmatite mine was operating intermittently for semi-precious stones, mainly phenacite and amazonite.

Three quarries were operated for stone and road metal construction, and several clay deposits were being worked to provide raw material for bricks and tiles. Sand and gravel were obtained as needed along the main rivers, but no organized or sustained operations were observed.

In the context of the Iron Quadrangle, iron ore can be singled out as the successor to gold in the process of mineral exploration. After the gold rush of the 18th century, with its full steam extraction, the 19th century was marked by the decadence of such extraction process in Brazil. The exploration of iron ore happened lately, since it was already known that this mineral existed in Brazilian lands, as it is possible to conclude from what Silva (1995) writes.

Most of the currently commercial iron ore deposits of the Iron Quadrangle are high grade hematite bodies associated with and formed from itabirite; "canga" was formerly an important ore, and a small amount is still used locally. Debris ore consisting of rocks and (or) fragments of high-grade hematite is used domestically and is exported. All known deposits are related to the Cauê Itabirite; none are known to have formed from the itabirite of the Monlevade Gneiss or the Elefante Formation. In addition to the hematite and "canga" deposits, itabirite, especially that disaggregated by weathering and thus easily concentrated, can be considered a potential source of iron ore.

Nevertheless, among the possible shortage of metals to be mined, studies on the country's iron ore reserves advanced, even though more investments were needed to develop technologies to beneficiate and mine this ore.

Thus, mainly in what refers to the beginning of the 20th century, we move on to a new period, a new moment for the Minas Gerais economy based on mineral extraction: the steel cycle. About this period that extends until today, Silva (1995) also exposes in his text "Mining in Minas Gerais: past, present and future": "However, it was exactly in this historical period (First Republic) that the economic world became aware of the large reserves of iron ore existing in the heart of the state of Minas Gerais".

With the development of technology, brought by North Americans interested in the large deposits existing in Brazilian soil, the extraction of iron ore became more intense and took place in increasingly large pits, especially from the 20th century on. Large open-pit mines were spreading throughout the cities of the Iron Quadrangle, bringing with them the "development" and also the impacts to their populations and environment. Rio Piracicaba - MG is among the cities that had in its history the discovery of gold as the beginning of its formation and engine of the local economy, and after the decline of this activity, it started to have as its economic base the exploitation of iron ore existing in its lands.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1.2. Implementation of mining undertakings in Rio Piracicaba – MG

S/A Mineração da Trindade - Samitri was a private company, which was founded in 1939 with its headquarters in Belo Horizonte, having mines in various regions of Minas Gerais state, but started its mining activities in Rio Piracicaba in the year 1961. In 1952, the Companhia Siderúrgica Belgo-Mineira bought Samitri and became the company's main shareholder. Starting in 1963, it began producing rich ores, placing Samitri among the main iron ore exporting companies operating in Brazil. (SAMITRI, 2015).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 28

The first mine to be opened in Rio Piracicaba was the Morro Agudo mine, from which ore is still extracted today, by Vale. In the city are still in operation to this day besides Morro Agudo, the Água Limpa and Cururu mines. It is important to note that the Água Limpa complex, as the set of three mines located in the geographical coordinates latitude 19º 56' 49.4" and longitude 43º 14' 37.5", is located partly in Rio Piracicaba - MG (SAMITRI, 2015), having as bordering communities in its territory the Bicas neighborhood, Santa Isabel neighborhood, Louis Ensch neighborhood - where the entrance gate to the mining area is located - and the rural area called Morro Agudo. Another part of the mining area is already inserted in Santa Barbara city, more specifically half of the Água Limpa mine, covering part of the rural community of Florália.

Still in the 60's, Samitri, together with another mining company, Companhia de Mineração de Ferro e Carvão Ferteco (Ferteco), signed a contract with Companhia Vale do Rio Doce (CVRD), for the disposal of the ore produced by the two companies, by means of the Vitória-Minas railway to the port of Tubarão, in Vitória - ES, to be sent abroad, that can be seen on Figure 5.1.2-1. "The contract provided for the export of four million tons/year to Belgium, Luxembourg, and the Saarland region (belonging to West Germany)." (VALE, 2012). From such an agreement with the two companies that already had major contacts with foreign steelmakers, CVRD also hoped to achieve visibility for the foreign market.

In addition, such move would also make CVRD expand its railroad network to have access to the Rio Piracicaba region, which already had in its surroundings the stations of Costa Lacerda, in Santa Bárbara - MG and Desembargador Drummond in Nova Era - MG, of the Vitória-Minas line. The connection between Rio Piracicaba and these stations was made from a branch of the Estrada de Ferro Central do Brasil, which became controlled by CVRD in 1961.

 

**Figure 5.1.2-1: Samitri Mines on the Iron Quadrangle Map**

With the coming of the company to Rio Piracicaba, many workers from cities in the region came to explore the iron ore. To accommodate the new residents coming to the city, the Samitri Village was built, as depicted in Figure 5.1.1-2.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 29

![](ex96-1_017.jpg)

**Figure 5.1.2-2: The Samitri Village**

In May of 2000, CVRD began to control Samitri's activities, after obtaining 79.27% of the voting capital of the company for R$971 million, which was previously held by Companhia Siderúrgica Belgo-Mineira. At the same time CVRD also owned 51% of Samarco Mineração and the capacity to produce 17.5 million tons of iron ore per year.

To boost its expansion CVRD also acquired 63.06% of the total capital of the Belgo-Mineira Group, since the latter decided to invest only in the steel sector, selling all its mining areas. Samarco was also acquired in this same transaction, since it was previously controlled by Samitri. (VALE, 2012).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5.1.3. Importance of Iron Ore to the Region

Iron ore is of crucial importance to the historical development of the state of Minas Gerais. It is one of the most important mineral assets for the industrial development of the nation, since it is an essential part of the steel industry, where worldwide about 98% of all extracted iron ore is used, the rest being used in ferroalloy and cement industries.

Rio Piracicaba is geologically inserted in an area called Iron Quadrangle. The region is rich in iron ore, which places the extraction of this ore as the dominant economic activity in the city, with Vale as the main company in the segment, operating the Água Limpa Mine, and also responsible for the Vitória-Minas Railroad.

Iron ore is the most important mineral commodity in Brazil exports. Since the year 2000, exports have increased by more than 100%. The value of exports reached 17.7 billion dollars in 2017.

6. Geological Setting, Mineralization and Deposit

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.1. Regional Geology

The area of insertion of the Project is the metallogenetic province (set of rocks with the same genetic characteristics) of the Iron Quadrangle (IQ), southwest region of the state of Minas Gerais. Its contour, on a map, is approximately that of a four-sided polygon, covering an area of approximately 7,000 km². Furthermore, it is inserted in the geotectonic context of the Meridional Sector of the São Francisco Craton (western portion of the IQ) and of the southern portion of the Araçuaí Belt (east of the IQ) (Figure 6.1-1).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 30

![](ex96-1_018.jpg)

**Figure 5.1.3-1: Geological map of the Iron Quadrangle (modified from Alkmim&Marshak, 1998)**

The great advance in the geological knowledge of the Iron Quadrangle is due to the project of systematic geological mapping, carried out from 1946 onwards, provided by the agreement between the National Department of Mineral Production (DNPM, current ANM – Mining National Agency) and the United States Geological Survey (USGS). As a result, base maps of great precision were obtained and the final collection consisted of the publication of forty-three geological plots in the scale 1:25,000 - compiled in the work of Dorr (1969) - most of them with detailed reports and in which the large iron ore deposits were mapped and several other mineral deposits (Au, Mn, etc.) were inventoried.

From this pioneer-modern work by Dorr (1969), the geological knowledge of the IQ grew substantially, due to the re-evaluation of the local geological patrimony, reformulation of the stratigraphic column, introduction of new structural concepts, of geotectonic behavior, as well as studies of sedimentary origin (Marshak & Alkmim, 1989; Alkmim & Marshak, 1998; Ladeira 1998; Alkmim & Noce, 2006) (Figure 6.1-2). Among these reformulations, the most relevant are those proposed by Schorscher (1978), of stratigraphic character, and those of Ladeira (1980 and 1985), more specifically, substantiated in the stratigraphic column proposed in 1980.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 31

According to Alkmim & Marshak (1998), the Precambrian rocks of the Iron Quadrangle can be individualized according to main lithostratigraphic units, as follows:

● Phanerozoic sedimentary coverages.

● Post-Itacolomi intrusions.

● The Supergroup Minas and the Itacolomi Group, constituted by Paleoproterozoic age metasediments.

● The Rio das Velhas Supergroup, formed by volcano-sedimentary sequences of the Greenstone Belt type.

● Archean Basement.

![](ex96-1_019.jpg)

**Figure 5.1.3-2: Stratigraphic column of the Iron Quadrangle.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 32

At the end of the Archean (~2600 Ma), the taphrogenetic event that originated the Minas basin (Minas Rift) began, followed by the deposition of the Minas Supergroup itself (Alkmim & Martins-Neto, 2012) in the Paleoproterozoic (2580 to 2100 Ma). In the final stages of deposition of the Paleoproterozoic Supergroup and during the sedimentation of the Itacolomi (more specifically during the sedimentation of the Sabará and Itacolomi Groups), there was the collision between the São Francisco and Congo proto cratons. This collision consists of the Transamazonic Orogenetic event (or the Minas Acrescionary Orogen, in the recent literature - Teixeira et al. 2015; Farina et al., 2016). This orogenetic event (~ 2050 Ma) is responsible for the deformation of the previous rocks and subsequent initial formation of the synformal and antiform mega-structures of the IQ (e.g., Moeda Syncline, Dom Bosco Syncline, Gandarela Syncline) (Alkmim & Marshak, 1998; Cutts et al., 2019).

At the end of the Paleoproterozoic (Estherian, ~ 1700 Ma), the Espinhaço rift was responsible for the injection of mafic dikes into the Quadrangle, as the result of a distensive stress field from the collapse of the previous orogen (Transamazonian).

In the Neoproterozoic, a second orogenic event occurred, responsible for a westward-vergent thrust belt, deforming, and reworking the previous structures in the IQ. This event, known as the Brasiliana Orogeny, is the same that originated the Araçuaí Belt and is also responsible for the fusion of Gondwana (Alkmim & Marshak, 1998).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.1.1. Minas Supergroup

In the area of this research, the rocks of the Minas Supergroup (Paleoproterozoic) occur in general, which is subdivided, from bottom to top in 4 Groups: Caraça, Itabira, Piracicaba and Sabará. It is worth mentioning that Cenozoic units of alluvial, colluvial and lateritic deposits also occur with a certain frequency. A summary (Gonçalves, 2020) of the main lithofacies of its stratigraphic units follows:

**<u>Caraça Group</u>**

The Caraça Group, basal unit of the Sg. Minas in erosional/tectonic contact with the Sg. Rio das Velhas is composed of the Moeda and Batatal Formations. The first Formation has predominantly two lithofacies, the first being thicker and coarse-grained, with frequent conglomeratic lenses and subordinate pelitic lenses. The second facies of the Moeda Formation have an abrupt contact with the first and correspond to a relatively more homogeneous package of clay and quartz materials, without conglomeratic lenses. The sedimentary setting for this Formation is continental to transitional, with Dorr II (1969) classifying it as deltaic and Renger et al. (1994) classifying it as alluvial to fluvial fans. Batatal Formation, mostly pelitic and quartz-free, already represents a deposition in a shallow marine transgressive environment in abrupt contact with the Moeda Formation (Dorr, 1969; Alkmim & Martins-Neto, 2012).

**<u>Itabira Group</u>**

The Itabira Group, composed of the Cauê and Gandarela Formations, both in abrupt contact with each other and with the underlying Group, is predominantly composed of itabirites in the basal unit, and of carbonate rocks, phyllites and subordinate banded iron formations in the upper unit (all banded iron formations / itabirites are Lake Superior kind). The sedimentary environment of these rocks is marine platform (passive margin), which also explains the large area extension of this Group (Dorr, 1969; Rosière & Chemale Jr., 2000).

**<u>Piracicaba Group</u>**

The Piracicaba Group is subdivided in the Cercadinho, Fecho do Funil, Taboões and Barreiro Formations. The Cercadinho Formation has basal contact with the Itabira Group by erosional discordance and comprises thick to thin quartzites, rich in hematite, ferruginous phyllites and subordinate dolomites. In gradual contact, the Fecho do Funil Formation overlaps the Cercadinho Formation and consists of dolomitic phyllites, argillite-quartz dolomites and phyllites. Its contact is also gradual with the overlying Formation (Taboões), which is composed of fine-grained quartzite. In turn, this unit is also in gradual contact with the Piracicaba Group top Formation (i.e., Barreiro). The last one consists of schists, phyllites and graphitic phyllites. The sedimentary environment of the Piracicaba Group is the same as that of the Itabira Group, i.e., marine platform with tectonic quiescence (Dorr, 1969; Farina et al., 2016).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 33

**<u>Sabará Group</u>**

The Sabará Group, whose contact with the Piracicaba Group is by erosional discordance, was elevated to this stratigraphic category by Renger et al. (1994). It represents a flysch suite deposited in a eugeosincline environment (related to the Transamazonian Orogen), being composed of schists, grauvaques, subgrauvaques, phyllites, sandstones, tuffs and subordinately by conglomerates, diamictites and itabirites (Dorr, 1969; Almeida et al., 2005).

**<u>Plio-Pleistocene sediments (N23ca)</u>**

Canga coverages are common and occur in the Gandarela Syncline, in the region of Barão de Cocais, originating from lateritization and/or pedogenesis of the outcropping Iron-rich rocks.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.2. Local Geology

The area that is the object of the present report is inserted in the Minas Supergroup (Figure 6.2-1), having in its basement the predominance of the Monlevade gneiss, lithological structure considered to be the oldest in this region. The iron-rich formation found in the area is derived from itabirites and hematites of the Cauê Formation (Itabira Group), while the phyllites and quartzites common to the site belong to the Piracicaba Group. There are also pelitic rocks of the Batatal Formation and quartzite rocks of the Moeda Formation, the last two belonging to the Caraça Group. The area is also characterized by itabirite/quartzite ridges surrounded by gneissic domains (IEF, 2011).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 34

**Figure 6.1.1-1: Regional geological map of the Iron Quadrangle with emphasis on the focus area of this report. Source: Adapted from Alkmim and Marshak (1998)**

Based on the integration of the data obtained in detailed geological mapping, excavations, drilling and granulochemical analysis it was possible to build a geological map of the Project (Figure 6.2-2).

A large part of the delimited polygonal extension of ANM mineral right No. 833.114/2012 is covered by lithologies of the Cauê and Piracicaba Formation, finding them from east to west, in contact with the quartzites of the Cercadinho Formation. These units, in the deposit, are organized according to an inverted flank structure.

This flank has a general direction N60-70E, dipping SSE with a low angle of less than 30°. (Figure 6.2-2).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 35

![](ex96-1_021.jpg)

**Figure 6.1.1-2: Geological Map of the Area**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3. Typologies of Ferriferous Formations

Based on the descriptive, granulometric and chemical data of the lithotypes intercepted in the drilling and excavations, it was possible to classify the iron formations. Thus, a decision tree was created for classification of the orebody. Table 6.3-1 presents the parameters used for detailed typological and economic classification.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 36

TYPOLOGICAL CLASSIFICATION OF THE RIO PIRACICABA PROJECT

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| Lithology | Code | Grain size | Grain size | Chemical & Minerology | Global Assays | Type |
| Itabirites | IFS | Friable Siliceous Itabirite | 50% < 6.30mm | Siliceous | Fe >= 25% < 58% | Mineralized material |
| Itabirites | ISC | Semi Compact Itabirite | 40% to 50% - 6.30mm | Siliceous | Fe >= 25% < 58% | Mineralized Material |
| Itabirites | IC | Compact Itabirite | 50% > 6.30mm | Siliceous | Fe >= 25% < 58% | waste |
| Manganese | Mn | Manganese | 50% > 6.30mm |  | Mn >=30% | Mineralized Material |
| Coverages | CR | Colluvium/rolled Iron mineralized material fragments | Colluvium/rolled Iron mineralized material fragments | Colluvium/rolled Iron mineralized material fragments | Fe >=25% e Al2O3 <-10% | Mineralized Material |
| Coverages | LT | Laterite, unconsolidated, clayey, magnetic | Laterite, unconsolidated, clayey, magnetic | Laterite, unconsolidated, clayey, magnetic | Fe <=30% and/or Al2O3>=10% | waste |
| Schist | XI | Friable rock. Medium to coarse foliated. Chlorite/ Sericite | Friable rock. Medium to coarse foliated. Chlorite/ Sericite | Friable rock. Medium to coarse foliated. Chlorite/ Sericite | waste | waste |
| Quartzite | QZT | Friable or compact, altered, siliceous rock with Sericite | Friable or compact, altered, siliceous rock with Sericite | Friable or compact, altered, siliceous rock with Sericite | waste | waste |

---

**Table 6.3-1: Parameters for typological classification**

The following describes the main rock units identified in the Project.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.1. Colluvium/Rolled – CR

Unconsolidated friable material of reddish and orange coloration formed by fragments of hematite and/or itabirite in the middle of a structureless ferruginous clay matrix. Its fragments can reach up to ten centimeters. It is an iron-poor coverage that varies from 2 to 6 m thick that covers the friable itabirites (Figure 6.3.1-1). This material is highly magnetic.

Its occurrence is exposed in small portions of the area, especially in the SW end of the mineral right area, according to the Geological Map (Figure 6.2-2).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 37

![](ex96-1_022.jpg)

**Figure 6.3.1-1: Colluvium / Rolled magnetic unconsolidated material.**

This iron mineralized unit presents granular fraction poor in Fe having average contents of 45%, and SiO<sub>2</sub> not liberated. The fractions < 6.30mm are more enriched than the friable itabirites. With a quality of these fines ranging from 36 to 42% Fe, they can certainly be blended with the itabirites.

**<u>Laterite – LT</u>**

Unconsolidated friable material of reddish coloration, clayey and variably magnetic. This cover was generated mainly from the decomposition of friable itabirites and to a lesser extent schist and quartzite. It is an iron-poor covering ranging from 1.10m to 3.45m in thickness that covers the friable itabirites and schists (Figure 6.3.1-2). This coverage was considered sterile.

Its occurrence is exposed in substantial portions of the area, especially in the extreme NW and south center of the researched area, according to the Geological Map – Annex A.

![](ex96-1_023.jpg)

**Figure 6.3.1-2: Laterite reddish clayey material – PRP -18 well.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 38

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.2. Friable Siliceous Itabirite - IFS

The Friable Siliceous Itabirite – IFS is light gray to whitish, friable compact rocks, disposed in a millimetric banding, compositional, formed by intercalations of dark bands rich in hematite and martite (little magnetic), and light bands containing quartz (Figure 6.3.2-1).

The IFS outcrops are covered by a thin layer of laterite in the extreme southern and central portion of the surveyed area (Figure 6.2-2). The IFS was intersected in 10 (ten) drillholes and in 7 (seven) test pits. The IFS is up to 30 m thick.

![](ex96-1_324.jpg)

**Figure 6.3.2-1: Friable Siliceous Itabirite. Drill core: FRP 03.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 39

The friable siliceous itabirites - IFS were classified as all material that is at least 50% passing 6.30mm and has iron contents greater than or equal to 25% Fe. This criterion may be adjusted in the future due to commercial and production issues, especially involving its processing. Associated with and hosted by the FSI, there are lenses of semi-compact hematitic itabirite, semi-compact siliceous itabirites and, more rarely, compact itabirites.

The IFS has a homogeneous granulochemical quality throughout the surveyed area, as shown in Figure 6.3.2-2, where the IFS was intersected in ten of the eleven drill cores. It can be seen that the Fe content is quite constant within the particle size ranges.

![](ex96-1_024.jpg)

**Figure 6.3.2-2: Granulochemical distribution of Iron in drill cores samples - IFS.**

It is observed that the fraction between 1.00mm and 6.30mm is the most Fe rich fraction and the fraction < 1.00mm even though it is less rich, visually, it is possible to see that SiO<sub>2</sub> is liberated.

The only real contaminant is silica (SiO<sub>2</sub>) and less commonly Alumina (Al<sub>2</sub>O<sub>3</sub>), associated with rare clayey passages. This is the main iron mineralization in the area.

Due to these lower contents and the granulochemical characteristics, the friable siliceous itabirites as well as the semi compact itabirites - ISC will need to be wet screened, grinded, and the throughs of approximately 1.0 mm destined for magnetic concentration. This lithology is 100% mineralized material.

The granulo-chemical quality of the friable siliceous itabirites has entered in the database and proven in the certificates of analysis.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.3. Semi-Compact Itabirite - ISC

The semi-compact itabirites - ISC, are light gray to whitish colored rocks, sometimes of compactness, with a transition from friable to compact material, arranged in a millimetric banding, compositional, formed by intercalations of dark bands rich in hematite and martite (little magnetic), and light bands containing quartz. It is similar to the FSI, being a little more resistant (Figure 6.3.3-1).

The ISC outcrops partially or is covered by a thin layer of laterite. (Figure 6.2-2). In addition, the ISC was intersected in 06 drillholes and in 04 wells.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 40

![](ex96-1_025.jpg)

**Figure 6.3.3-1: Semi-compact Itabirite outcrop - ISC.**

Semi-compact itabirites - ISC were classified as all material that is 40 to 50% passing 6.30mm and has iron contents greater than or equal to 25% Fe. Similar to IFS, these criteria can be adjusted for commercial and production reasons.

Associated and enclosed within the ISC is a semi-compact hematitic itabirite (Figure 6.3.3-2), which is actually a localized enrichment with thicker bands of hematite, but of restricted location.

![](ex96-1_026.jpg)

**Figure 6.3.3-2: Centimetric lens of hematite interspersed in the ISC.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 41

Unlike the IFS, the ISC has a less homogeneous granulochemical quality. It can be seen that the Fe content is variable within the particle size ranges. In drill core FRP 04 there is also a slight enrichment in Fe.

![](ex96-1_027.jpg)

**Figure 6.3.3-3: Granulo-chemical distribution of Iron in drill cores - ISC.**

The only real contaminant is SiO<sub>2</sub> and less commonly Al<sub>2</sub>O<sub>3</sub>, associated with rare clay passages.

Due to this lower content and the granulochemical, as seen on Figure 6.3.3-3, characteristics, the semi compact itabirites ISC will need to be wet screened and the 1.00 or 2.00mm through magnetic concentration. This lithology is 100% mineralized material.

The granulo-chemical quality of the semi-compact itabirites has entered in the database and proven in the certificates of analysis.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.4. Compact Itabirite - IC

The Compact Itabirites - IC, are light gray metallic rocks, of high compactness, arranged in a millimetric banding, compositional, formed by intercalations of dark bands rich in hematite and martite (little magnetic), and light bands containing quartz.

The IC outcrops in some points of the surveyed area, forming slabs (Figure 6.2-2) or are covered by a thin layer of laterite (Figure 6.3.4-1). Their thickness varies from 1.0 to 5.5m. The CI was intercepted in 05 (five) drillholes and in 03 wells.

The IC was not considered as mineralized material since it needs a grinding process to obtain the necessary liberation grade to concentrate the Iron (Fe).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 42

 ****

**Figure 6.3.4-1: Compact itabirite outcrop - IC.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.5. Manganese - Mn

These are compact, massive, poorly fractured, dark gray to black rocks. This rock unit was observed in well PRP 15, central portion of the mapped area, extreme SW of the area. It occurs in the form of a metric lens. Contacts are abrupt with the itabirite.

Only 1 (one) channel sample was collected in the pit due to lack of exposures. Drillholes did not intersect this unit. Below is a summary of the Manganese grades.

This is a high Mn content rock and low Fe, SiO<sub>2</sub> and Al<sub>2</sub>O<sub>3</sub> content for this type of mineralization. This rock has an average Mn content in the lump size fraction of 35.18% and SiO<sub>2</sub> of 5.92%. Because it is compact it generates few fines, on the order of 16%. The quality of these fines is poorer because there is a migration of SiO<sub>2</sub> to the < 1.00mm fraction, generating a SiO<sub>2</sub> content of 15.82% and Mn content of 26.25%. This product must be crushed and dry screened. The lump fraction generates a direct product, and the fines can be blended with the fines from the itabirites. This lithology is 100% mineralized material.

The granulochemical quality of the manganese mineralized material has entered in the database and proven in the certificates of analysis.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.3.6. Quartzites - QZT

Quartzites are commonly compact rocks, being composed, besides quartz, of sericite and more rarely of iron contamination (Figure 6.3.6-1). This unit is the base of the sequence of iron formations in the area. It was intersected in all drill cores, and its thickness is up to 56m. Sericite phyllite lenses of centimeter thickness occur in the quartzite. Both are associated with the Cercadinho Formation. This unit is 100% waste.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 43

![](ex96-1_030.jpg)

**Figure 6.3.6-1: Compact Quartzite.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 44

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.4. Deposit Types

This topic is a compilation of the Program of Basic Geological Surveys of Brazil (PLGB), prepared by the Geological Service of Brazil (CPRM) in the region that encompasses the Rio Piracicaba Project, and was of utmost importance to start the exploratory work in the area.

For the elaboration of the metallogenetic/previsional chart, a broad multidisciplinary integration of data was carried out, with compilation and subsequent treatment of geological, structural, petrographic, geochemical, scintillometric (radiometric), geophysical and mineral cadastre information. This activity followed the standards established, nationally, for the PLGB surveys. The geochemical data, as well as that of a significant portion of mineral deposits, resulted from consultations with the research work developed by several companies that operate in the region.

The mineral cadastre, even though it has only a partial meaning, led to the accounting of a considerable number of deposits (about three hundred), covering a broad spectrum of metallic (iron, gold, manganese, aluminum, etc.) and non-metallic substances (sands, gems, gravel, etc.), grouped according to their respective geological contexts. In the representation of these deposits, suitable symbols were used for the mapping of the classes of deposits and their morphological characteristics (on a genetic-descriptive basis), as well as the current situation in terms of economic utilization and size of the deposits.

Some special units and/or lithotypes were highlighted in the aforementioned chart, in general favoring areas of occurrence of supracrustal rocks (Archean metavolcanosedimentary sequences and Paleoproterozoic chemical metasediments) and, to a lesser extent, of mafic or metaultramafic rocks.

Several mineralized/previsional areas (or areas of mineral potentiality) characterized as probable and potential were also delineated in the chart. The probable areas, usually with much direct and indirect evidence of mineralization, highlight segments bearing deposits of iron, gold, silver, manganese, aluminum (bauxite), chromium, titanium, special sands, and gems. A single potential area has been established for base metals (copper, zinc, and lead) based on the rather high geochemical concentrations of these elements in the drainage.

The mineral production of the region is of great economic importance, with iron ore, gold and gems standing out. A factor of basically geological nature, allied to a long local tradition in mining enterprises, contributes decisively to the notable economic exploitation of the mineral resources found in the region, which is its partial insertion in the Iron Quadrangle, where it occupies the northeast quadrant. In general, the production structure within what can be considered a mining district is already well developed, with large and traditional investments in the iron and gold mining industries. During the last decades, the Itabira mining complex (mines Cauê, Dois Córregos, Conceição, etc.) has been world renowned for the large-scale production of iron ore, with amounts reaching several tens of millions of tons.

The considerable distance in relation to the Metropolitan Region of Belo Horizonte has prevented a greater demand for non-metallic mineral substances, such as construction materials. Only the production of gravel, destined almost exclusively to meet the development needs of urban centers such as Itabira, João Monlevade and Santa Barbara, stands out.

Next, the main geological and economic data related to the metallic mineral substance of interest will be presented, registered in the metallogenetic chart of the Rio Piracicaba Project region (Figure 6.4-1).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 45

The iron deposits represent the main mineral substance in the surveyed region and are distributed in seven distinct geographic segments, namely: in the Gandarela syncline (Barão de Cocais and Tamanduá mountain range); in the Itabira region; in the belt extending from Rio Piracicaba beyond João Monlevade; southwest of Santa Bárbara (Donana hill); in Candidópolis; in the Nova Era region; and, finally, south of Hematita (Piçarrão).

There are three primary typologies of iron deposits: Fe-Ti ore in a bedded complex, Algoma-type iron formations and Lake Superior-type iron formations, each of which presents subtypes and surface concentrations (cangas, eluvium and colluvium).

![](ex96-1_031.jpg)

**Figure 6.3.6-1: Detail of the metallogenetic/previsional chart, framing the Rio Piracicaba Project region.**

The Fe-Ti ore occurs associated with metagabros (amphibolites) and metanorthosites (feldspathic rocks) and its outcrops are found in a peripheral position within an elongated body of metamorphic and metaultramafic rocks, about 1.5 km long and located immediately south of the Candidópolis locality; It presents a massive structure (when composed of about 90% magnetite and ilmenite) or banded (in case of increasing volume percentage of minerals such as chlorite and hornblende); another relatively common ore type is the mineralized amphibolite, which experiences increases in the contents of mafics and exhibits some plagioclase. The (total) iron contents most commonly found in the different ore types range from 27 to 47% and the mineral inventory exceeds two million tons (data at the time of the survey).

As it occurs in the rest of the Iron Quadrangle, the vast majority of the iron deposits are in intimate stratigraphic association with the Paleoproterozoic metasedimentary sequence of the Minas Supergroup. Also, here the spatial relation with the Archean metavolcanosedimentary sequences (Supergroup Rio das Velhas and Guanhães Complex), which are sotopically or tectonically imbricated with those. It is worth mentioning that based on lithological associations, the current geological cartography that involves the region proposes the inclusion of the Hematite (Piçarrão) and Nova Era iron formations in the Guanhães Complex, although these rocks can also be correlated with those of the Itabira Group.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 46

The Algoma type iron formations are present in practically all the area of occurrence of the metavolcanosedimentary sequence of the Nova Lima Group (Santa Quitéria and Córrego do Sítio units) and define alignments denominated São Bento, Brumal, etc. These rocks do not present a favorable history in terms of their exploitation as iron ore, but in the region of the Donana hill, southwest of Santa Barbara, a work was done to evaluate the potential of ferruginous canga that covers schists and ferriferous formations. At this site, the mineral inventory, with forty-five million tons, seems to be exaggerated, but perhaps the biggest problem lies in the high phosphorus content (greater than 0.1%) of the mineralized material, a strongly restrictive factor for its use in steelmaking. Anyway, there were some attempts to exploit them in the remote past, which is one of the few documented cases of mining, even if not very expressive, aiming at iron ore inside the Nova Lima Group. As for the iron material bodies of Nova Era and Piçarrão, there are no data yet to place them with certainty among the Archean deposits; in the case of the latter, the ore reserves were practically exhausted about two decades ago, leaving now about one million tons.

In the Cauê Formation, of the Itabira Group (Minas Supergroup), the Lake Superior type iron formations occur, which present a stratiform morphology, with great lateral persistence of the layers and iron contents. The predominant lithologies are itabirites, which correspond to mixtures, in variable proportions, of oxidized iron minerals (hematite and magnetite, with some martite) and quartz (metachert); the accessory mineralogy also comprises some sericite, carbonates (calcite and dolomite) and amphiboles, besides limonite and manganese oxides and hydroxides. Within the Cauê Formation it is worth noting the close association of the itabirites with other chemical (such as dolomites) and clastic-chemical (dolomitic phyllites and paraderivative amphibolites) metasediments, and, in particular, with large lenticular bodies of compact to powdery hematite, holders of the richest concentrations of iron. Due to their great resistance to erosion, the itabirites of this unit remain with a typical relief of ridges that denounce the structuring of the sedimentary package resulting from several deformation events. In the region of Rio Piracicaba, as well as in the rest of the Iron Quadrangle, the structures generated during the Proterozoic, are not rare, of the synclinal type, sometimes with rupture of hinges and the development of thrust scales, in part integrating the external zone of a mobile Neoproterozoic belt denominated as Araçuaí Belt.

The large quantity of iron deposits attests to the importance of this substance in the mineral scenario of the region and even of the country. The intense exploration activity of the itabirites of the Cauê Formation is well characterized in this context, where open-pit mines account for about 50% of the national production. Most of the remaining mineral deposits are small.

The economic history of the Itabira region, currently marked by intense exploration for iron deposits, began, however, with gold mining, from the pioneering discoveries made by the bandeirantes (explorers and fortune hunters in early Colonial Brazil) in the 18th century.

The exploitation of iron ore from the mining district known worldwide as the Iron Quadrangle, used in Catalan forges, only started around 1830, and this first phase lasted until 1932. In 1903 the construction of the Vitória-Minas Railroad began and in 1908 it was absorbed by the Itabira Iron Co., which also acquired the Cauê, Dois Córregos and Conceição ore deposits.

With the creation of the Vale do Rio Doce Company, in 1942, the stock control became Brazilian, and the railroad was extended to the towns of Nova Era and Itabira, completing the railroad connection between the iron mines and the port of Vitória. In the first half of the current century some reserve evaluations were carried out within the techniques recommended by the mining legislation, followed, in the 50s and 60s, by the first systematic detailed geological mapping of the area of this district by teams from the USGS (United States Geological Survey) and, at the time, the DNPM, with the establishment of a complete stratigraphy for the units that compose the Minas Supergroup.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 47

From there, most of the economic evaluation work of the ore existing in the QF was carried out, the most important bodies were located in terms of volume, content and favorability for exploitation, and the development of the most important and ambitious projects in terms of iron ore mining was started.

All the iron ore is extracted from the itabirite layers of the Cauê Formation, sedimented during the transition from Archean to Paleoproterozoic times, more precisely at the beginning of the latter period. The Cauê Formation is represented by a set of stratiform deposits where a great variation in average metal contents is observed (35.3% in itabirites to 68.2% of Fe in hematite), according to the results exposed in reserve evaluations carried out by several companies.

The rocks targeted within the Cauê Formation are lenticular bodies of hematite (compact or pulverulent) and layers of itabirites, whose mineralogy is mainly composed of hematite, magnetite, martite, quartz (metachert), carbonates (calcite and dolomite) and sericite, in addition to limonite and manganese oxides and hydroxides. In the case of the richest ores, with about 67 % Fe, the other compositional parameters, of chemical nature and that are sometimes determinant in the quality of the ore, even with increasing demands by the consumer market, are: SiO2 = 0.8%, Al2O3 = 0.9-1.7% and P = 0.03-0.04%. It is the average Fe content, together with some mineralogical and petrographic criteria, which define the different denominations given to the ores produced in the Iron Quadrangle:

Hematite: > 64% Fe

Rich Itabirite: 60 - 64% Fe

Itabirite: < 60% Fe

The following types of iron formations can be recognized in the Iron Quadrangle: itabirites, hematite phyllites, Fe-dolomites and, subordinately, pyritic phyllites (Table 6.4-1) (Rosière et al., 1993).

---

| | | |
|:---|:---|:---|
| **TYPES OF IRON FORMATION** | **MAIN MINERALOGICAL COMPONENTS** | **ACCESSORIES COMPONENTS** |
| **Common Itabirite** | hematite, martite, kenomagnetite, quartz. | chlorite, sericite, ferroan dolomite, kaolinite, kyanite, Mn oxides, sulphides, apatite, pyrophyllite. |
| **Dolomitic Itabirite** | martite, hematite, kenomagnetite, Fe-dolomite | calcite, grunerite-cummingtonite, chlorite, stilpnomelane, biotite, tremolite, actinolite, quartz (chert), sulphides, pyrophilite. |
| **Amphibolitic Itabirite** | martite, hematite, kenomagnetite, maghemite,<br> grunerite-cummingtonite,<br> tremolite, actinolite, quartz. | carbonate, talc, Fe-dolomite, egirine, biotite, Mg-riebeckite, kupferite, sulphides. |
| **Hematite-phyllite** | hematite, sericite. | quartz, chlorite. |
| **Pyrite phyllite** | pyrite, carbonaceous material. |  |

---

**Table 6.3.6-1: Mineralogy of the different compositional types of iron formations**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 48

Itabirites are rocks that are characterized by a banded structure, of remarkable continuity and where dark laminae rich in iron minerals, mainly hematite and magnetite, alternate with light laminae formed on the basis of quartz. When submitted to hydrothermal alteration processes such as silicification, the original carbonates are partially transformed into amphiboles (tremolite and actinolite).

The local predominance of these carbonates over iron minerals determines the intercalation of more or less ferruginous dolomitic lenses amidst the itabirites, as well as the rapid, albeit gradual, passage to the Gandarela Formation, immediately overlying the Cauê Formation, within what constitutes the Itabira Group, in the classical stratigraphy of the Iron Quadrangle.

Another important characterizing factor in mineralization are the tectonic structures, which resulted in a rich variety of textural features due to the development of specularite plaques whose distribution characterizes cleavages of varied types and morphology and defines tectonic types (Table 6.4-2) with different textures and microstructures (Rosière et al., 1993).

---

| | |
|:---|:---|
| **TECTONIC TYPES \*** | **MAIN FEATURES** |
| **Itabirites and schist ores** | Strongly oriented, protomilonitic to milonitic texture with martite porphyroclasts and granoblastic hematite aggregates surrounded by specularite plaques. Oriented amphibole crystals. Partial or complete transposition of the primary banding. Unrooted folds. Carbonates and quartz show granoblastic weave. |
| **Breccia** | Non-oriented banded itabirite fragments and compact mineralized material in matrix consisting of sacaroidal quartz, carbonates, or hematite.<br> Non-oriented banded itabirite fragments and compact hematite in matrix consisting of sacaroidal quartz, carbonates, or hematite. |
| **Cataclasites**<br> ***(Blue dust*)** | Fine crystals of specularite showing weak or no preferential orientation. Evidence of hydrothermalism. Associated gold mineralization. |

---

**Table 6.3.6-2: Main characteristics of the tectonic types (\*hematite is the dominant phase in all types)**

It is noteworthy that, although they have not been object of reserves quantification so far, due to the small dimensions of the bodies, it is worth mentioning the presence of itabirite lenses also inside the Gandarela Formation. Banded iron formations also occur in the basal and middle units of the Nova Lima Group, but they have never been object of exploration activities due to their smaller dimensions (especially thickness) and lower Fe contents, compared to the itabirites of the Cauê Formation.

The pace of exploration of the large iron deposits has been quite intense in the last decades, basically concentrated in the mines of the region (with total mineral inventory of itabirites and hematite over two billion tons).

Due to their greater resistance to erosion, the ferriferous rocks are highlighted in the topography, almost always constituting the crests of large longitudinal mountains and greatly favoring bench mining techniques, carried out in the open pit and with well-established exhaustion pits. This is done with variable blasting of an iron-rich (and therefore almost always utilized) lateritic canga capping and the adjacent non-mineralized strata.

Iron ore mining is entirely mechanized and usually involves the use of explosives. The treatment of the ore, for enrichment by eliminating most of the silica, is performed in easement areas located near the mines, and the tailings from this processing are largely retained in the tailing dams. More recently, an environmental recovery of the areas exhausted by mining has been initiated through programs that apply new vegetation cover, mainly grasses, over them.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 49

Depending on its granulometric characteristics, the beneficiated material produced in the mines is called: lumpy ore (2" - ¼"), sinter feed (¼" - 100#), pellet feed fine (100# - 325#). Most of the iron ore produced is shipped, via railroad, to export ports, such as the Tubarão terminal, located near Vitória, in the state of Espírito Santo.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.5. Local Iron Metallogeny

Two main types of iron mineralization are present in the region, in the form of large stratiform deposits of banded iron formations, namely: the deposits contained in the Archean metavolcanosedimentary sequence of the Nova Lima Group (greenstone belt Rio das Velhas) and those corresponding to the Cauê Formation, Minas Super Group. Due to gigantic reserves, high average metal contents and favorable topography, among other factors, only the second of these types has been economically exploited during the current century.

However, the differences between the two types of iron formations go far beyond the question of their utilization by the mining industry. For the iron mineral rich lithologies found in the Nova Lima Group a link with proximal to distal exhalative phenomena associated with the initial oceanic background magmatism that built part of the supracrustal stack of the greenstone belt can be easily assumed.

This association characterizes the banded iron formations of the Algoma type, which have an expressive presence in the basal (Ouro Fino) and medium (Santa Quitéria) units of the Nova Lima Group; in the first one, the banded iron formations would be of the proximal or vulcex (volcanic-exhalative) type, and in the other case they can be framed in the medial to distal or sedex (sedimentary-exhalative) types.

As for the Cauê Unit, chemical sedimentation in stable platform conditions, equivalent to the tectonic environment of passive margins advocated by modern plate tectonics, is observed, thus typifying iron deposits of the Lake Superior type.

The traces of this continental paleoplatform, on which the Cauê itabirites were settled, are still found from the southernmost portion of the São Francisco Craton, where they integrate the Jeceaba-Bonsucesso Lineament, extending certainly up to the reworked ancient core, in the Rio Piracicaba region, in the northeast of the Iron Quadrangle.

If the chronocorrelation character of the itabirite formations found in the Serro-Morro do Pilar belt and in the Guanhães region is confirmed, the minimum extent of this Paleoproterozoic marginal basin was approximately 400 km. The region under study also presents large discontinuities in the occurrences, attributable to intrusions (domes) of granitoids of the Borrachudos Suite, as well as to compressional tectonic events that produced a large number of thrust scales.

The absence of present-day deposits comparable to these huge Archean to Paleoproterozoic accumulations has been imposing serious restrictions on the hypotheses (Barry-Maynard, 1983) about the origin of the mineralogical precursors of the banded iron formations (in the case of the original chert and iron hydroxides). Doubts also exist about the physical-chemical conditions (reducing or oxidizing atmosphere) dominant in the Neoarchean and Paleoproterozoic, as well as problems in identifying the sources of the metal (volcanic-exhalative, continental erosion, etc.) and the intensity of the biological (bacterial?) influence. Still, these bodies have been considered syngenetic since iron accumulations occurred along with sedimentation.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 50

Many iron ore bodies of the Cauê Formation are essentially composed of compact and hard hematite, in which case they always present high iron contents (above 64%) and constitute many of the topographically highlighted peaks in the profile of the mountains that outline the complex structure of the Iron Quadrangle, integrating themselves with the history of human occupation of the region from the 17th century on.

For such bodies, the most accepted hypothesis about their genesis is the one that favors the diagenetic concentration phenomena from the itabirite layers, in opposition to the theories supported essentially in hydrothermal-metasomatic concentration processes.

A particular type of ferriferous formation also found in the Cauê Unit refers to the so called "jacutingas", intercalated in the itabirite layers and distinguished by its friable to powdery aspect, and that in great part can be attributed to superficial (meteoric) alterations.

As for the third type of iron deposit, in Candidopolis, its origin is clearly magmatic and results from fractionation inside a relatively large chamber, with an original diameter of perhaps a little more than a kilometer. It is a bedded complex of basic nature, later transformed into amphibolic rocks, where the Fe-Ti ore occurs in repetitive cycles in rhythmically banded zones, where it alternates with feldspathic rocks (metanorthosites) and fine to coarse grained amphibolites (metagabros).

The iron enrichment in the magma, translated by the magnetite- and ilmenite-based mineralogy of the orebody, was a consequence of the withdrawal of Al and Ca, elements necessary for the crystallization of the feldspars (the plagioclase-rich or metanorthositic layers). For this bedded complex, a petrotectonic association of gabbroic bodies (tholeiitic magma) in a synvolcanic environment (Archean greenstone belt) can be suggested, following the example of the Dore Lake Complex in Quebec (Canada).

According to conceptualized metallogenesis, some areas in the region present high mineral potentiality, when it comes to iron. According to the survey carried out by CPRM, areas of occurrence of the Cauê Formation were delimited, notable for the large stratiform and eventually lenticular deposits of iron ore consisting of banded iron formations of the Lake Superior type (itabirites and pulverulent to compact hematite), with about 5 billion tons.

At João Monlevade - Rio Piracicaba, such lithic records, which represent the remains of Paleoproterozoic platform sedimentation, are delineated by their mineralogical composition, together with the enhanced relief, lateritic coverings (canga) and the magnetometric anomalies.

Manganese is another element with potential for deposit formation in the area, but further exploration research is needed. The manganese deposits mentioned in this unit of the Itabira Group are generally not very expressive, in terms of reserves (up to about 200,000 t) and in the Rio Piracicaba region there are gondite bodies intercalated in granatiferous schists.

However, it is known that in the Itabira region several manganese ore bodies associated with the iron formations were mined and they extended from the Dois Córregos region to the Chacrinha mine.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.6. Banded Iron Formations (BIF)

The largest and most important iron deposits in the world are hosted in Banded Iron Formations (BIF), rocks of chemical sedimentary origin. Hydrothermal alteration of these rocks, which generally have about 30 to 35% Fe in their composition, can raise their Fe content to above 60%, generating so-called high-grade deposits, the most important source of iron in the world.

In addition to hypogenic hydrothermal alteration, BIF-hosted iron deposits can also undergo supergene alteration, generating laterite-type deposits. The other types of iron deposits (Kiruna / Lahn-Dill, Skarn, Clinton-Minette) are of secondary importance to the BIF hosted deposits.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 51

BIFs were classically defined by James (1954) as chemical sedimentary rocks, typically banded, or laminated, containing 15% or more iron of sedimentary origin. Commonly, the alternating bands or laminae are a few millimeters to a few centimeters thick (Figure 6.6-1), interspersing reddish or dark bands rich in iron oxides (magnetite and hematite) with light bands composed almost exclusively of microcrystalline silica (chert).

![](ex96-1_032.jpg)

**Figure 6.3.6-1: Examples of banded Ferrous Formations: a) Paleoproterozoic folded BIF of the Cauê Formation, Iron Quadrangle; b) BIF with fallen clast of the Santa Cruz Formation, Urucum district, Corumbá - MS, deposited under glacial influence in the Neoproterozoic (Photos: F. Caxito).**

According to the predominant iron mineral, James (1954) further suggested a division into four main facies: oxide facies (magnetite and hematite), carbonate facies (rich in ankerite and siderite), silicate facies (rich in stilpnomelane, greenalite and rhyebeckite) and sulfide facies (rich in pyrite, chalcopyrite and other iron sulfides), with the last facies no longer considered today as BIF but rather as pyrite-rich carbonaceous shale (Bekker et al. 2010). These facies typically present gradational passages from one to the other and have intermediate terms between them, according to the relative proportions of each mineral in a BIF.

The deposition of a BIF is a geological event dependent on the complex interaction between several geochemical, biological, tectonic, and magmatic factors (Bekker et al. 2010). For this reason, although it occurs throughout the geologic record, deposition of BIFs is highly concentrated in specific periods (Figure 6.6-2), with more than 90% of the world's BIFs being deposited between 2.0 and 2.5 billion years ago (James & Trendall, 1982).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 52

![](ex96-1_033.jpg)

**Figure 6.3.6-2: Major periods of BIF deposition in geologic time. The red curves represent the relative amount of BIF deposited in each interval. The blue line represents the relative amount of oxygen in the atmosphere (pO2, in%) in geological time to the present day, where it makes up about 21% of its composition. GOE = Great Oxygenation Event; NOE = Neoproterozoic Oxygenation Event. The main periods of deposition of BIF of the Algoma, Lake Superior and Rapitan type are indicated, as well as the main deposits of Minas Gerais.**

Since the classical works of Cloud (1965, 1973), it has been considered that, in order to deposit a BIF, it is necessary to oxidize the Fe (II), soluble in seawater, into Fe (III), insoluble, which in this way precipitates on the ocean floor forming the sedimentary deposits (Figure 6.6-3a).

During the Archean and up to the beginning of the Paleoproterozoic (about 4 to 2.5 billion years ago) a large amount of Fe (II) could be accumulated in solution in the planet's oceans, because the atmosphere was basically free of oxygen (Figure 6.6-3). This Fe (II) came mainly from submarine volcanic activity, especially in periods of high magmatic fertility due to mantle shifts, when the Large Igneous Provinces were developed (Klein & Beukes, 1989; Beukes et al., 1990; Bekker et al., 2010).

The emergence of photosynthetic organisms (cyanobacteria) generated a large amount of O2 as a byproduct of their metabolism, which eventually accumulated in the atmosphere, causing the oxygen catastrophe that eliminated a large number of microorganisms that had no protection against an environment rich in this reagent. Thus, the main period of BIF deposition, through the oxygenation of dissolved Fe (II) by oxygen produced by cyanobacteria, is considered robust evidence for a Great Oxygenation Event (GOE) approximately 2.4 billion years ago (Figure 6.6-3). This event is also suggested by several geochemical and biological lines of evidence (Canfield, 1998, Bekker et al., 2004, Scott et al., 2008, Frei et al., 2009, Farquhar et al., 2011).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 53

Alternative models have been proposed for BIF deposition. An entirely abiological model was proposed by Cairns-Smith (1978) and Braterman et al. (1983), where the oxidation of Fe (II) in surface waters would be caused by a photochemical effect through interaction with ultraviolet radiation, since the planet did not yet have a protective ozone layer (Figure 6.6-3b). Tosca et al. (2016) propose that the lack of organisms using silica as a raw material for skeleton manufacture in the Archean may have promoted a variety of reactions between Fe (II) and dissolved silica and suggest that changes in water pH could promote these reactions and the deposition of BIF.

Anyway, the main period of BIF deposition is followed by almost a billion years in which BIF become extremely rare, the so-called "Boring Billion", between about 1.8 and 0.8 billion years ago (Figure 6.6-3). Then, during the Neoproterozoic, planet Earth would experience the greatest and most extreme climatic, biological, tectonic and chemical variations in its history, including periods of extreme glaciation (Snowball Earth) and extreme greenhouse effect (Greenhouse Earth), the break-up of a supercontinent (Rodinia) and the dispersion of its fragments until they reassembled into a new supercontinent (Gondwana), a new global oxygenation event (NOE) and, at the culmination of the Ediacaran period, the enormous diversification of complex life forms that resulted in the Cambrian explosion that followed. The Neoproterozoic also marks the return of the deposition of large amounts of BIF in the geologic record, following the Boring Billion (Figure 6.6-3).

![](ex96-1_034.jpg)

**Figure 6.3.6-3: Models of BIF deposition: a) oxygenation of the atmosphere causes a stratification of the ocean, with an oxygenated upper layer and an anoxic deep layer. The free oxygen may have been generated as a byproduct of photosynthesis carried out by cyanobacteria, which allowed the accumulation of sufficient amount to carry out large-scale oxidation of Fe (II) to Fe (III) about 2.4 billion years ago; B) alternative model where the oxidation of Fe (II) in surface waters would be caused by a photochemical effect through interaction with ultraviolet radiation, due to the absence of the protective ozone layer in the Archean / Paleoproterozoic atmosphere. In this model a stratified ocean with respect to the amount of dissolved oxygen is not required.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 54

Recently, the role of microbial life in the precipitation and post-depositional alteration of BIFs has been gaining much attention, since Fe (II) bearing minerals such as magnetite and iron-rich carbonates are common end-products of iron dissimilatory reduction, a common type of metabolism for some bacteria and Archaea (Walker, 1984; Lovley et al., 1987; Teixeira et al., 2017).

According to geological features and the inferred depositional and tectonic environment, Gross (1980, 1983) divided BIFs into two categories, Algoma, and Lake Superior. A third type, the Rapitan type (Young, 1976; Klein & Beukes, 1993), with glaciogenic influence in the Neoproterozoic, was also suggested (Figure 6.6-4).

![](ex96-1_035.jpg)

**Figure 6.3.6-4: Banded Ferritic Formation types and their respective depositional environments. Original figure inspired by models proposed by Gross (1983), Young (1976) and Klein & Beukes (1993).**

The Lake Superior type BIF, which fits the depositional model of the Project area, is associated with thick layers of sedimentary rocks deposited on marine continental shelves and in rift basins, in a passive margin environment, mainly in the Paleoproterozoic. In these environments they are associated with dolomites, quartzites, black shales and, in smaller quantities, tuffs and other rocks of volcanic origin. BIFs of this type are home to some of the largest and most potent iron deposits in the world. The settlement of the first continents and supercontinents in the late Archean, through the amalgamation of smaller continental blocks, allowed the development for the first time in the early Paleoproterozoic of extensive continental shelf areas where large passive margin basins could be developed. The availability of this accommodation space was particularly important for the deposition of the substantial amounts of Lake Superior-type BIF between 2.5 and 2.0 Ga.

According to the texture and composition, the iron formations can be further classified into another type, the Granular Iron Formations (GIF). GIF is rich in debris, predominantly sand-sized, and exhibits cross-stratification and wave marks, indicating a shallow, high-energy environment. They are considered to be shallow equivalents of BIF deposited in deeper environments. When deposited in shallower environments, GIF can be reworked by waves and tensile currents, which do not reach the deep environments. BIF are dominant in Archean to early Paleoproterozoic age successions, whereas GIF is much more common in Proterozoic successions later than the GOE (Trendall, 2002; Bekker et al., 2010).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 55

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.7. Hydrothermal Alteration of Banded Iron Formations

In general, for an iron deposit to be economically viable, reconcentration of the iron in BIF must have occurred by post-depositional processes, usually hydrothermalism associated with large structures such as faults and folds. In these hydrothermal processes silica is leached out, concentrating the iron which can occur in the form of neoformed minerals such as specularite hematite. Through hydrothermal processes, BIF that have reasonable amounts of Fe, between 30 and 35% (Klein, 2005) can reach concentrations above 60% iron, thus characterizing high grade deposits (Hagemann et al., 2015).

The so-called BIF-hosted iron ore system (Hagemann et al., 2015) represents the largest and highest iron grade deposits in the world. This system is typically structurally controlled, mainly through kilometer fault systems, which allow large volumes of hydrothermal fluids to flow between BIFs during late deformational events or even during extensional events related to basin formation. Supergene fluids can also access these structures during the Cenozoic, generating a second remobilization of the elements and the laterite-type deposits.

The transformation of BIFs into iron ore deposits is controlled by structural permeability and hypogenic alteration caused by deep fluids (magmatic or basinal) and ancient meteoric waters, and supergene enrichment that may follow. In most large deposits, three main hypogene stages and one supergene stage are observed (Hagemann et al, 2015): I) leaching of silica and formation of magnetite and locally carbonate; II) oxidation of magnetite to hematite (martitization), further dissolution of quartz and formation of carbonate; III) further martitization, replacement of Fe silicates by hematite, microtabular or specular, and dissolution of carbonates; and IV) replacement of magnetite and remaining carbonates by goethite and magnetite and formation of fibrous quartz minerals and argilominerals.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;6.8. Surface Alteration Deposits (Lateritic)

They are formed by weathering and surface alteration of iron-rich rocks, especially BIF, through preferential leaching of silica-rich layers and secondary accumulation of iron-rich minerals. Iron minerals are generally hydrated, which presents a problem in geometallurgical terms because they have high contents of other elements in their crystalline structure (Santos & Brandão, 2003). The lateritic cangas that develop on top of the landscapes of the Iron Quadrangle are examples of surface alteration deposits. They normally form hard, dark layers that are more resistant to erosion processes and therefore can be found on mountain tops and preserved reliefs.

The classical model of lateritic crust evolution (Ramanaidou & Morris, 2009) explains the large volume of supergene ore, up to 200 m thick, that occurs both in Brazil (e.g., in Iron Quadrangle and Carajás) and in other regions of the world such as in the districts of Hamersley in Australia and Simandou in Guinea (Hagemann et al., 2015). These deposits occur on hills and plateaus where BIF layers form erosion-resistant tops that have been subjected to periods of Cenozoic meteoric water uplift and infiltration, according to climatic and geomorphological conditions. Silica and carbonates are leached out by cold meteoric waters, and iron is concentrated under oxidizing conditions both as residual minerals (hematite, magnetite) and as neoformed minerals (hematite, maguemite and goethite), locally with gibbsite, kaolinite and Al and Fe rich phosphates and Mn oxyhydroxides.

Lateritization causes the formation of friable, powdery ores, and locally can cause the preservation of hematite/magnetite-rich primary ore bodies. For supergene enrichment to be effective, the BIF layers must function as an aquifer confined or partially confined by impermeable units such as shales, massive mafic rocks, or milonitized zones. The flow of recent meteoric waters is controlled by the structural permeability of BIF caused by fracturing and the collapse of structures due to leaching of carbonates and quartz. Phosphorus, one of the main contaminant elements in iron ore, is subject to rapid remobilization during supergene, due to dissolution of fine-grained apatite in BIFs (Hagemann et al., 2015).

Geochronological studies using the 40Ar/39Ar and (U-Th)/He systems in lateritic (canga) crusts of the Iron Quadrangle (Spier et al., 2006; Monteiro et al., 2014) show that dissolution and precipitation of iron oxyhydroxides began in the Paleogen, about 48.1 ± 4.8 Ma ago, and continues to the present, being less effective during the Neogene. These ages are also consistent with the formation of Fe-rich lateritic crusts in the Carajás region and East Africa, with most ages accumulating between 46-47 Ma, although some older ages show that the evolution of Mn-rich lateritic crusts may have begun as early as the Upper Cretaceous (Hagemann et al., 2015).

7. Exploration

All the activities performed during the mineral exploration campaign for iron and manganese mineralized material are summarized in Table 7-1 below and presented in detail in Figure 7-1 and Figure 7-2. Geological mapping work was performed over the entire target area of the survey. Rotary drilling and sampling of channel and exploration test pits or wells were also carried out.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 56

---

| | | |
|:---|:---|:---|
| **Main Activities Conducted** | **Unity** | **Quantity** |
| Semi-detail mapping (1:2,000) | Ha | 27 |
| Detail Topography (Vant) | Ha | 30 |
| Rotary drilling | Drill Cores / Meters | 11 / 383.91 |
| Topographic survey of drill cores | Drill Cores | 11 |
| Drill cores logging | Meters | 383.91 |
| Drill cores sampling | Samples | 55 |
| Exploration test pits | Pits / Meters | 19 / 59.45 |
| Topographic survey of exploration test pits | Pits | 19 |
| Exploration test pit lithological description | Meters | 59.45 |
| Exploration test pit sampling | Samples | 15 |
| Channel sampling | Samples | 4 |
| Particle size analysis for iron mineralized material | Unity | 74 |
| Chemical assays for iron mineralized material | Unity | 220 |
| QA/QC Assays | Unity | 40 |
| Density Samples | Unity | 48 |

---

**Table 7.0-1: Services performed in the Project.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 57

![](ex96-1_036.jpg)

**Figure 7.0-2: Map of the target area of the Project**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 58

![](ex96-1_037.jpg)

**Figure 7.0-3: Detailed map of services conducted 2010/2011.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 59

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**7.1. Exploration Infrastructure**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**7.1.1. Project Staff**

The personnel employed in the research work were professionals from RCS and local labor. Summary of the Project staff:

● 1 Senior Geologist.

● 1 Geologist.

● 1 Geology Technician / Drilling Inspector

● 1 Technical Assistant for sampling.

● 2 College level interns.

● Diamond Drilling Team (Subcontractor: 1 driller and 2 assistants).

● Topography works team (Subcontractor: 1 engineer and 1 assistant).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**7.1.2. Support Equipment**

● Rotary Drill (Subcontractor).

● Laboratory for ore quality analyses (Subcontractor).

● Lease of one water tanker, wheel loader and one tire loader for 3 months to support the drilling and opening of the exploration test pits.

● Rental of two support vehicles.

● Warehouse for storing samples and drill cores.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.2. Geological Mapping

The geological mapping was carried out in one stage, from April to May 2021. Exclusively developed to search for iron and manganese. The data were integrated in the same cartographic base in Sirgas 2000 Datum, generating a single geological map (Figure 7.2-2).

The mapping work was done in semi - detail and, occasionally, in detail. In both situations, the objective was to understand the context and lithostructural controls of the iron formations, defining their geometry, contacts, and existing typologies. The works were executed along the existing exposures in surface and accesses. In this context, a total of 38 geological points were described, all of which were registered with GPS (Garmin 60CSx), which has an accuracy of up to 3m (Figure 7.2-1, Figure 7.2-2 and Figure 7.2-3.

This mapping subsidized the map and geological sections. To assist this mapping, regional and detailed topography data, satellite images, and samples from channels and research test pits were used.

The data collected in the field mapping were organized in a database and enabled the preparation of the Geological Map on a semi-detail scale 1:5,000 (Figure 7.2-2).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 60

**Glauconitic Siltstone Outcrops**

**Figure 7.2-1: Geological Map Area - compact itabirite outcrop**

**Figure 7.2-2:** **Geological Map Area**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 61

**Figure 7.2-3: Map of geological spots**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.3. Channel and Test Pit Sampling

One excavation sampling campaign was conducted distributed throughout the target area. Nineteen research test pits were made either manually or mechanically dug by excavator to expose the lithologies in the subsurface, with depths varying from 1.50 m to 10.0 m and an average of 3.13 m, totaling 59.45 m in length. Test Pits 8 and 9, although planned, were not carried out due safety concerns.

Four channel samples were also made along the access and natural cuts. The average length of the channels was 5.49 m. Table 7.3-1 and Table 7.3-2 summarize the activities described above.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 62

---

| | | | | |
|:---|:---|:---|:---|:---|
| **Test Pit ID** | **UTM N** | **UTM E** | **Altitude** | **Length (m)** |
| PRP 01 | 688089 | 7794102 | 789 | 1.50 |
| PRP 02 | 688026 | 7794162 | 791 | 1.85 |
| PRP 03 | 688051 | 7794180 | 784 | 1.10 |
| PRP 04 | 688068 | 7794186 | 779 | 2.50 |
| PRP 05 | 688050 | 7794223 | 780 | 1.00 |
| PRP 06 | 688036 | 7794257 | 780 | 2.50 |
| PRP 07 | 688017 | 7794230 | 789 | 3.40 |
| PRP 10 | 688268 | 7794172 | 734 | 3.20 |
| PRP 11 | 688266 | 7794247 | 718 | 1.30 |
| PRP 12 | 688306 | 7794261 | 709 | 2.00 |
| PRP 13 | 688623 | 7794105 | 644 | 1.00 |
| PRP 14 | 688586 | 7794152 | 646 | 0.80 |
| PRP 15 | 688173 | 7794295 | 736 | 3.50 |
| PRP 16 | 688224 | 7794327 | 719 | 2.30 |
| PRP 17 | 688082 | 7794295 | 763 | 5.50 |
| PRP 18 | 688010 | 7794341 | 784 | 10.00 |
| PRP 19 | 688137 | 7794371 | 737 | 6.80 |
| PRP 20 | 688048 | 7794394 | 771 | 2.50 |
| PRP 21 | 687979 | 7794438 | 793 | 6.80 |
| **TOTAL - 19 test pits** |  |  |  | **59.55** |

---

**Table 7.3-1: Identification and location of the exploration test pits.**

---

| | | | | |
|:---|:---|:---|:---|:---|
| **Channel ID** | **UTM N** | **UTM E** | **Altitude** | **Length (m)** |
| ARP 01 | 7794277 | 688407 | 700 | 5.50 |
| ARP 02 | 7794214 | 688355 | 714 | 6.30 |
| ARP 03 | 7794178 | 688199 | 760 | 5.20 |
| ARP 04 | 7794138 | 688445 | 695 | 4.80 |
| **Total - 4 channel samples** |  |  |  |  |

---

**Table 7.3-2: Identification and location of the channel samples**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 63

Next, Figure 7.3-1 and Figure 7.3-2 present the activities of exploration test pit description and sampling.

![](ex96-1_040.jpg)

**Figure 7.3-1: **Exploration well sampling**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 64

![](ex96-1_041.jpg)

**Figure 7.3-2:** **Exploration test pit sampling**

All samples collected in the channel and in the test, pits were submitted to the same preparation protocol and granulochemical analyses as the drill cores. When collecting the samples, special attention was given to representativeness in relation to the sampling area, avoiding deviations. The samples collected on the surface were sent to the GeoAnalabs laboratory, located in Jardim Canada - Nova Lima, MG.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 65

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.4. Planialtimetric Topographic Survey

Planialtimetric topographic survey work conducted in the city of Rio Piracicaba/MG on May 18, 2021. For this work, the Sirgas 2000 Coordinate System was used. The survey area has 22.7 ha and is shown in Figure 7.4-1.

![](ex96-1_042.jpg)

**Figure 7.4-1:** **Location of the study areas**

The site has direct access for vehicles, and its predominant cover is dense forest (Figure 7.4-2).

![](ex96-1_43.jpg)

**Figure 7.4-2:** **Access and vegetation cover**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 66

To perform this work, we adopted the method of aero photogrammetric survey by UAV (Unmanned Aerial Vehicle) using topographic reference points (control points) checked with GPS/RTK (Base and Rover) used in post-processing to check the positioning (Figure 7.4-3 and Figure 7.4-4).

**Figure 7.4-3: Drone/ UAV**

![](ex96-1_046.jpg)

**Figure 7.4-4: GPS (Base)**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 67

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.4.1. Base and Control Points

The GPS base was installed at the highest point of the terrain and its coordinates are:

---

| | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** | **SIRGAS Coordinates** |
|  | **Latitude (gms)** | **Latitude (gms)** | **Latitude (gms)** | **Longitude (gms)** | **Longitude (gms)** | **Longitude (gms)** | **Alt. Geo (m)** | **UTM N (m)** | **MC** |
| Em 2000.4 (that needs to be used) <sup>4</sup> | - 19° | 56' | 25.7899" | - 43° | 12' | 14.6977" | 811.71 | 7794098400 | -45 |
| On the survey date <sup>5</sup> | - 19° | 56' | 25.7817" | - 43° | 12' | 14.6999" | 811.71 | 7794098653 | -45 |
| Sigma (95%)<sup>6</sup> (m) | 0.003 |  |  | 0.008 |  |  | 0.016 |  |  |
| Geoidal Model | MAPGEO2015 |  |  |  |  |  |  |  |  |
| Geoidal Waveform (m) | -8.35 |  |  |  |  |  |  |  |  |
| Orthometric Altitude (m) | 820.06 |  |  |  |  |  |  |  |  |

---

**Table 7.4.1-1: GPS base coordinates**

Eight control points were surveyed for tying and gauging the aero photogrammetric study (Figure 7.4.1-1).

![](ex96-1_71.jpg)

**Figure 7.4.1-1: Control points studied.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 68

A DJI Mavic Pro model was used to take photos. The photos were set with a lateral overlap of 70% and frontal overlap of 75%. A total of 246 photos were taken during the survey.

After the work is done, the images are processed together with the control points (surveyed with GPS). From this processing a Digital Terrain Model (DTM) is generated from which the contour lines are extracted (Figure 7.4.1-2).

![](ex96-1_047.jpg)

**Figure 7.4.1-2: Digital terrain model (DTM)**

Note: Appendix 1 presents a detailed report of the image processing for the generation of the DTM that later generated the contour lines.

It is important to emphasize that due to the intense vegetation cover presented at the site, the topographic restitution by image, may present an over-elevation in relation to the natural terrain (Figure 7.4.1-3).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 69

![](ex96-1_048.jpg)

**Figure 7.4.1-3: Location of the control points in relation to the generated image**

As a result, the georeferenced ortho-photo and level curves were obtained in digital format, represented in the Figure 7.4.1-4 and Figure 7.4.1-5

![](ex96-1_049.jpg)

**Figure 7.4.1-4: Georeferenced Ortho-photo**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 70

![](ex96-1_050.jpg)

**Figure 7.4.1-5: Contour Lines in Digital Format with 1-Meter Gap**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.5. Drillholes Cadastral Survey

Topographic planialtimetric cadastral survey for positioning of drillholes and Test Pits were performed in Rio Piracicaba/MG on June 28, 2021 (Figure 7.5-1).

The Sirgas 2000 Coordinate System was adopted as standard, zoning 23 South.

Precision GPS/RTK (Base and Rover) equipment was used to perform this work and with points post processed in the IBGE database.

Equipment:

Data Collector R20030342506

GPS COMNAV Base T330 6095

GPS Rover COMNAV T330 6048

With all the data downloaded from the collector and GPS base, they are sent for correction to the IBGE database. In response we have a Reading Stabilization report for precision coordinate readings.

After obtaining the Base point with the IBGE correction, the data is entered into the collector and the correction is made by the device itself, which delivers the definitive list of the points surveyed.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 71

![](ex96-1_051.jpg)

**Figure 7.5-1: Points studied.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;7.6. Density

The density of a rock is defined as the quotient between its mass and volume. That is, density measures the degree of mass concentration in a given volume (d = m/v).

Based on the displacement of volume by the Archimedes principle, it is assumed that every material, partially or totally submerged in a liquid, is subject to a buoyant force E of the liquid, in a vertical direction, from the bottom to the top, and with an intensity equal to the weight of liquid displaced. For this, a vessel with water of known volume and a scale were used.

Steps to measure densities:

● Selection of sample intervals in drillholes and types of lithologies.

● Each sample was wrapped in a plastic film, filling all the voids and external irregularities.

● The sample was weighed, and the mass (kg) registered in an Excel spreadsheet.

● The sample was then placed in the container with water, determining its total volume = Total Vol (l).

● The variation of the total volume (Total Vol.) minus the initial volume (Initial Vol.) of each sample was registered in the spreadsheet.

● At the end, the density calculation was performed according to the photos below (Figure 7.6-1).

d = Total Mass (kg) / Total Vol. (lt) – Initial Vol. (lt)

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 72

![](ex96-1_052.jpg)

**Figure 7.6-1: Density tests procedure**

To carry out the density tests, different samples from drill cores and from different lithologies were selected and tested (18 samples of siliceous friable itabirite, 4 semi-compact itabirite, 10 compact itabirite, 1 laterite, 2 schist and 13 quartzite samples) (Table 7.6-1 and Table 7.6-2).

---

| | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|
| **Sample** | **Hole ID** | **From (m)** | **To (m)** | **LITO** | **Wet weight (kg)** | **Volume (l)** | **Density (kg/l)** |
| DRP01 | FRP 01 | 17.40 | 17.50 | ISC | 0.755 | 0.250 | 3.02 |
| DRP02 | FRP 01 | 21.30 | 21.40 | ISC | 0.58 | 0.180 | 3.22 |
| DRP03 | FRP 02 | 13.20 | 13.30 | ISC | 0.708 | 0.230 | 3.08 |
| DRP04 | FRP 02 | 3.90 | 4.00 | ISC | 0.652 | 0.200 | 3.26 |
| DRP05 | FRP 02 | 4.30 | 4.40 | IFS | 0.565 | 0.200 | 2.83 |
| DRP06 | FRP 02 | 8.50 | 8.60 | IFS | 0.661 | 0.220 | 3.00 |
| DRP07 | FRP 02 | 16.50 | 16.60 | IFS | 0.704 | 0.220 | 3.20 |
| DRP08 | FRP 02 | 19.60 | 19.75 | IFS | 0.920 | 0.310 | 2.97 |
| DRP09 | FRP 03 | 1.60 | 1.70 | LT | 0.446 | 0.260 | 1.72 |
| DRP10 | FRP 03 | 4.40 | 4.50 | IFS | 0.677 | 0.200 | 3.4 |
| DRP11 | FRP 03 | 6.30 | 6.40 | IFS | 0.576 | 0.280 | 2.06 |
| DRP12 | FRP 03 | 19.80 | 19.90 | IFS | 0.424 | 0.160 | 2.65 |
| DRP13 | FRP 03 | 30.40 | 30.50 | IFS | 0.481 | 0.240 | 2.00 |
| DRP14 | FRP 03 | 35.40 | 35.50 | QZT | 0.688 | 0.250 | 2.8 |
| DRP15 | FRP 03 | 43.95 | 44.05 | QZT | 0.473 | 0.190 | 2.5 |
| DRP 16 | FRP 04 | 7.60 | 7.70 | IFS | 0.603 | 0.180 | 3.4 |
| DRP 17 | FRP 04 | 7.20 | 7.30 | IFS | 0.467 | 0.110 | 4.2 |
| DRP 18 | FRP 04 | 21.68 | 21.75 | IC | 0.558 | 0.190 | 2.9 |
| DRP 19 | FRP 04 | 24.50 | 24.57 | IC | 0.604 | 0.200 | 3.0 |
| DRP 20 | FRP 04 | 29.85 | 29.95 | QZT | 0.375 | 0.140 | 2.7 |
| DRP 21 | FRP 04 | 40.35 | 40.45 | QZT | 0.717 | 0.260 | 2.8 |
| DRP 22 | FRP 05 | 14.70 | 14.75 | IFS | 0.422 | 0.110 | 3.8 |
| DRP 23 | FRP 05 | 10.29 | 10.35 | IFS | 0.600 | 0.170 | 3.5 |
| DRP 24 | FRP 05 | 18.05 | 18.12 | IC | 0.616 | 0.190 | 3.2 |
| DRP 25 | FRP 05 | 18.20 | 18.30 | IC | 0.735 | 0.210 | 3.5 |
| DRP 26 | FRP 05 | 23.60 | 23.66 | QZT | 0.392 | 0.140 | 2.8 |
| DRP 27 | FRP 05 | 24.25 | 24.32 | QZT | 0.408 | 0.190 | 2.1 |
| DRP 28 | FRP 05 | 31.25 | 31.30 | QZT | 0.348 | 0.110 | 3.2 |
| DRP 29 | FRP 05 | 32.80 | 32.90 | QZT | 0.677 | 0.250 | 2.7 |
| DRP 30 | FRP 06 | 5.21 | 5.27 | IFS | 0.537 | 0.150 | 3.6 |
| DRP 31 | FRP 06 | 9.12 | 9.20 | QZT | 0.555 | 0.240 | 2.3 |
| DRP 32 | FRP 07 | 4.00 | 4.10 | IFS | 0.610 | 0.190 | 3.2 |
| DRP 33 | FRP 07 | 6.00 | 6.05 | IC | 0.621 | 0.170 | 3.7 |
| DRP 34 | FRP 07 | 14.27 | 14.35 | QZT | 0.584 | 0.210 | 2.8 |
| DRP 35 | FRP 07 | 17.78 | 17.85 | QZT | 0.591 | 0.200 | 3.0 |
| DRP 36 | FRP 08 | 4.00 | 4.05 | IFS | 0.452 | 0.160 | 2.83 |
| DRP 37 | FRP 08 | 8.30 | 8.35 | IFS | 0.550 | 0.190 | 2.89 |
| DRP 38 | FRP 08 | 12.25 | 12.34 | IC | 0.823 | 0.240 | 3.43 |
| DRP 39 | FRP 08 | 14.25 | 14.30 | IC | 0.461 | 0.140 | 3.29 |
| DRP 40 | FRP 08 | 19.86 | 19.93 | QZT | 0.621 | 0.210 | 2.96 |
| DRP 41 | FRP 08 | 23.13 | 23.20 | XI | 0.562 | 0.210 | 2.68 |
| DRP 42 | FRP 09 | 2.30 | 2.35 | IFS | 0.469 | 0.150 | 3.13 |
| DRP 43 | FRP 09 | 6.42 | 6.48 | IFS | 0.483 | 0.160 | 3.02 |
| DRP 44 | FRP 09 | 9.93 | 9.98 | IC | 0.412 | 0.120 | 3.43 |
| DRP 45 | FRP 09 | 13.80 | 13.90 | IC | 0.897 | 0.290 | 3.09 |
| DRP 46 | FRP 09 | 17.31 | 17.40 | IC | 0.847 | 0.260 | 3.26 |
| DRP 47 | FRP 09 | 18.15 | 18.25 | QZT | 0.751 | 0.280 | 2.68 |
| DRP 48 | FRP 09 | 24.30 | 24.36 | XI | 0.456 | 0.190 | 2.40 |

---

**Table 7.6-1: Data summary**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 73

---

| | | |
|:---|:---|:---|
| Lithology | Lithology | Density (t/m³) |
| Friable Silicious Itabirite | IFS | 3.10 |
| Semi-compact Itabirite | ISC | 3.15 |
| Compact Itabirite | IC | 3.30 |
| Quartzite | QZT | 2.26 |
| Laterite | LT | 2.70 |
| Schist | XI | 2.54 |

---

**Table 7.6-2: Average density values by lithology**

8. Sample Preparation, Analysis and Security

Apollo contracted GeoAnalabs Laboratórios Ltda for drill cores, test pits and channel samples granulochemical analysis. GeoAnalabs has international certification ISO 9001:2015 for samples preparation and chemical assays of rocks and soils by SAS, a certifier recognized by the IAF - International Accreditation Forum (Australia) and by INMETRO (Brazil).

A total of fifty-five drill core samples, fifteen test pit samples, and four channel samples were generated, totaling seventy-four granulometric analyses, 222 chemical assay analyses.

The chemical analysis certificates files obtained from the drill cores, wells, and channels samples are available at Apollo's office, as long as drill core logs and sampling plans original documents.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;8.1. Sampling Method

The procedure for preparation and analyses of drill core samples was the same as that applied for the channel and research well samples as shown below.

The samples were dried at 105°C and dry screened in the ranges: 19.00mm; 6.30mm; 3.35mm; 1.00mm; 0.150mm; 0.075mm.

After screening, they were grouped to be analyzed in the following ranges: +6.30mm; -6.30mm +1.00mm; -1.00 mm.

The samples, then homogenized in the presented ranges, were crushed to 3mm with 95% passing < 3.00mm. The samples were homogenized, quartered from 100 to 200 g, and pulverized to a minimum of 95% < 0.106mm, according to ABNT (Associação Brasileira de Normas Técnicas) and ISO standards.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;8.2. Sample Assay

The Fe%, Mn%, SiO2%, P%, Al2O3%, CaO%, MgO%, TiO2%, Na2O%, K2O%, Cr2O3% contents were determined by fusion / X-ray Fluorescence (XRF) Spectrometry.

Assays of the major oxides by XRF

The sample was dried at 105oC and a 0.5 to 1g sample was mixed with lithium tetraborate flux, which was melted and poured into a mold to form a glassy disk. The samples were analyzed by Wavelength X-Ray Fluorescence Spectrometer.

The loss on ignition (LOI) was analyzed by placing 1.5 to 2g of the sample in a crucible, heating at 1000oC for one hour, cooling and weighing the sample.

After checking the results, the reserve samples from the drill cores were returned to the core shed and archived along with the remaining half of the drill cores.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;8.3. Sample Security

Apollo maintains samples control protocol. Individual samples were sealed in packages at the Project site. These packages, after proper labeling and identification, were sent in pre-determined lots to the Laboratory in Nova Lima - MG for preparation and assaying,

Apollo retains the pulps and coarse tailings of its samples in a secure warehouse in Rio Piracicaba, MG, close to the exploration site.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 74

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;8.4. Results

Table 8.4-2 contains all the samples taken for chemical assaying, their respective intervals, lengths, and chemical calculated global results, as well as the lithology codes per interval. Table 8.4-1 presents the lithology codes.

The global results for Fe%, SiO2%, Al2O3%, Mn%, P%, LOI% contents were calculated from the chemical assays in fractions G1 > 6.3mm, 1mm > G2 < 6.3mm and G3 <1mm, weighted average by the mass recovery in each fraction.

---

| | |
|:---|:---|
| Lithology codes | Lithology codes |
| Friable Silicious Itabirite | IFS |
| Semi-compact Itabirite | ISC |
| Compact Itabirite | IC |
| Quartzite | QZT |
| Colluvium /rolled | CR |
| Laterite | LT |
| Manganese | Mn |
| Hematite | HC |
| Schist | XI |

---

**Table 8.4-1: Lithology codes**

NS = not sampled

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **Drill Cores** | **Samples** | **From (m)** | **To (m)** | **Thickness (m)** | **Lithology** | **Fe%** | **SiO2%** | **Al2O3%** | **Mn%** | **P%** | **LOI%** |
| FRP 01 | FRP 01_01 | 0.00 | 2.50 | 2.50 | CR | 42.02 | 23.33 | 7.01 | 1.20 | 0.090 | 6.64 |
| FRP 01 | FRP 01_02 | 2.50 | 6.50 | 4.00 | IFS | 33.38 | 47.63 | 0.99 | 1.61 | 0.019 | 1.31 |
| FRP 01 | FRP 01_03 | 6.50 | 10.50 | 4.00 | IFS | 33.38 | 49.67 | 1.24 | 0.03 | 0.009 | 0.56 |
| FRP 01 | FRP 01_04 | 10.50 | 1450 | 400 | IFS | 35.90 | 47.46 | 0.47 | 0.06 | <0.004 | 0.18 |
| FRP 01 | FRP 01_05 | 14.50 | 19.00 | 4.50 | ISC | 32.43 | 52.11 | 0.56 | 0.29 | <0.004 | 0.43 |
| FRP 01 | FRP 01_06 | 19.00 | 22.35 | 3.35 | ISC | 29.18 | 56.58 | 0.97 | 0.01 | <0.004 | 0.21 |
| FRP 01 | NS | 22.35 | 78.30 | 55.95 | QZT | **-** | **-** | **-** | **-** | **-** | **-** |
| FRP 02 | NS | 0.00 | 1.10 | 1.10 | LT |  |  |  |  |  |  |
| FRP 02 | FRP-02_01 | 1.10 | 4.00 | 2.90 | IC | 29.78 | 56.90 | 0.15 | 0.04 | 0.010 | 0.17 |
| FRP 02 | FRP-02_02 | 4.00 | 7.80 | 3.80 | IFS | 34.75 | 49.71 | 0.09 | 0.02 | 0.005 | 0.43 |
| FRP 02 | FRP-02_03 | 7.80 | 12.50 | 4.70 | IFS | 31.01 | 55.13 | 0.34 | 0.01 | <0.004 | 0.09 |
| FRP 02 | FRP-02_04 | 12.50 | 16.60 | 4.10 | IFS | 31.48 | 54.31 | 0.48 | 0.02 | <0.004 | 0.12 |
| FRP 02 | FRP-02_05 | 16.60 | 20.00 | 3.40 | IFS | 34.64 | 50.30 | 0.09 | 0.01 | <0.004 | 0.04 |
| FRP 02 | FRP-02_06 | 20.00 | 25.00 | 5.00 | IFS | 34.78 | 49.59 | 0.40 | 0.02 | <0.004 | 0.15 |
| FRP 02 | FRP-02_07 | 25.00 | 30.00 | 5.00 | IFS | 33.35 | 51.52 | 0.43 | 0.04 | <0.004 | 0.17 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 75

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **Drill Cores** | **Samples** | **From (m)** | **To (m)** | **Thickness (m)** | **Lithology** | **Fe%** | **SiO2%** | **Al2O3%** | **Mn%** | **P%** | **LOI%** |
| FRP 02 | FRP-02_08 | 30.00 | 34.20 | 4.20 | IFS | 30.74 | 55.18 | 0.47 | 0.01 | <0.004 | 0.17 |
| FRP 02 | NS | 34.20 | 44.55 | 10.35 | QZT |  |  |  |  |  |  |
| FRP 03 | NS | 0.00 | 3.45 | 3.45 | LT |  |  |  |  |  |  |
| FRP 03 | FRP-03_01 | 3.45 | 6.05 | 2.60 | IFS | 36.87 | 32.65 | 6.98 | 1.91 | 0.022 | 4.52 |
| FRP 03 | NS | 6.05 | 13.10 | 7.05 | QZT |  |  |  |  |  |  |
| FRP 03 | FRP-03_02 | 13.10 | 17.10 | 4.00 | IFS | 32.03 | 51.88 | 1.10 | 0.02 | <0.004 | 0.23 |
| FRP 03 | FRP-03_03 | 17.10 | 21.35 | 4.25 | IFS | 31.26 | 52.13 | 1.45 | 0.03 | 0.008 | 0.36 |
| FRP 03 | NS | 21.35 | 45.60 | 24.25 | QZT |  |  |  |  |  |  |
| FRP 04 | FRP-04_01 | 0.00 | 3.25 | 3.25 | LT | 32.89 | 33.47 | 9.53 | 1.49 | 0.035 | 6.55 |
| FRP 04 | FRP-04_02 | 3.25 | 6.85 | 3.60 | IFS | 39.03 | 40.76 | 2.01 | 0.16 | 0.009 | 0.97 |
| FRP 04 | FRP-04_03 | 6.85 | 9.80 | 2.95 | ISC | 41.81 | 31.38 | 4.81 | 0.65 | 0.060 | 2.80 |
| FRP 04 | FRP-04_04 | 9.80 | 14.00 | 4.20 | IFS | 30.33 | 55.01 | 0.55 | 0.06 | 0.009 | 0.59 |
| FRP 04 | FRP-04_05 | 14.00 | 19.20 | 5.20 | IFS | 29.69 | 56.48 | 0.24 | 0.05 | 0.015 | 0.35 |
| FRP 04 | FRP-04_06 | 19.20 | 25.10 | 5.90 | IC | 29.74 | 56.64 | 0.44 | 0.04 | 0.012 | 0.11 |
| FRP 04 | FRP-04_07 | 25.10 | 25.75 | 0.65 | QZT | 2.81 | 83.29 | 8.17 | 0.17 | <0.004 | 1.45 |
| FRP 04 | NS | 25.75 | 47.60 | 21.85 |  |  |  |  |  |  |  |
| FRP 05 | FRP-05_01 | 0.00 | 1.20 | 1.20 | LT | 32.87 | 33.51 | 9.40 | 0.26 | 0.058 | 8.54 |
| FRP 05 | FRP-05_02 | 1.20 | 3.05 | 1.85 | IFS | 33.06 | 42.60 | 4.70 | 1.86 | 0.023 | 2.53 |
| FRP 05 | NS | 3.05 | 8.10 | 5.05 |  |  |  |  |  |  |  |
| FRP 05 | FRP-05_03 | 8.10 | 11.85 | 3.75 | IFS | 35.62 | 44.81 | 1.77 | 0.90 | 0.011 | 1.03 |
| FRP 05 | FRP-05_04 | 11.85 | 15.40 | 3.55 | IFS | 32.73 | 52.18 | 0.49 | 0.05 | <0.004 | 0.27 |
| FRP 05 | FRP-05_05 | 15.40 | 19.20 | 3.80 | SCI | 29.26 | 56.25 | 0.87 | 0.04 | 0.008 | 0.34 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 76

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **Drill Cores** | **Samples** | **From (m)** | **To (m)** | **Thickness (m)** | **Lithology** | **Fe%** | **SiO2%** | **Al2O3%** | **Mn%** | **P%** | **LOI%** |
| FRP 05 | FRP-05_06 | 19.20 | 20.50 | 1.30 | QZT | 3.41 | 84.23 | 7.24 | <0.01 | 0.005 | 1.16 |
| FRP 05 | NS | 20.50 | 34.95 | 14.45 |  |  |  |  |  |  |  |
| FRP 06 | FRP-06_01 | 0.00 | 1.70 | 1.70 | LT | 27.70 | 23.46 | 20.06 | 0.04 | 0.049 | 14.88 |
| FRP 06 | FRP-06_02 | 1.70 | 3.10 | 1.40 | IC | 28.43 | 46.06 | 5.20 | 4.23 | 0.047 | 1.11 |
| FRP 06 | FRP-06_03 | 3.10 | 6.50 | 3.40 | IFS | 30.87 | 54.19 | 0.74 | 0.07 | 0.006 | 0.67 |
| FRP 06 | FRP-06_04 | 6.50 | 7.25 | 0.75 | QZT | 6.04 | 82.25 | 5.74 | 0.14 | <0.004 | 1.22 |
| FRP 06 | NS | 7.25 | 26.15 | 18.90 |  |  |  |  |  |  |  |
| FRP 07 | FRP-07_01 | 0.00 | 1.50 | 1.50 | LT | 24.71 | 37.81 | 12.98 | 0.03 | 0.044 | 12.05 |
| FRP 07 | FRP-07_02 | 1.50 | 4.00 | 2.50 | IC | 27.15 | 56.05 | 2.67 | 0.69 | 0.012 | 1.11 |
| FRP 07 | FRP-07_03 | 4.00 | 7.15 | 3.15 | ISC | 27.58 | 59.83 | 0.29 | 0.02 | 0.006 | 0.22 |
| FRP 07 | FRP-07_04 | 7.15 | 8.15 | 1.00 | QZT | 3.95 | 80.58 | 8.80 | 0.02 | 0.006 | 1.43 |
| FRP 07 | NS | 8.15 | 20.30 | 12.15 |  |  |  |  |  |  |  |
| FRP 08 | FRP-08_01 | 0.00 | 3.35 | 3.35 | LT | 28.12 | 35.92 | 14.30 | 0.07 | 0.036 | 8.22 |
| FRP 08 | FRP-08_02 | 3.35 | 8.35 | 5.00 | IFS | 31.36 | 53.33 | 0.93 | 0.04 | <0.004 | 0.27 |
| FRP 08 | FRP-08_03 | 8.35 | 11.60 | 3.25 | IFS | 27.20 | 58.33 | 1.49 | 0.04 | 0.006 | 0.38 |
| FRP 08 | FRP-08_04 | 11.60 | 17.10 | 5.50 | IC | 29.31 | 57.71 | 0.10 | 0.04 | 0.008 | 0.04 |
| FRP 08 | FRP-08_05 | 17.10 | 19.20 | 2.10 | IC | 22.25 | 62.95 | 3.32 | 0.02 | 0.007 | 0.53 |
| FRP 08 | FRP-08_06 | 19.20 | 20.20 | 1.00 | QZT | 2.22 | 76.42 | 12.97 | 0.16 | 0.015 | 1.88 |
| FRP 08 | NS | 20.20 | 23.70 | 3.50 | QZT |  |  |  |  |  |  |
| FRP 09 | FRP-09_01 | 0.00 | 3.40 | 3.40 | IFS | 31.49 | 52.34 | 1.20 | 0.40 | 0.021 | 0.60 |
| FRP 09 | FRP-09_02 | 3.40 | 6.75 | 3.35 | IFS | 30.80 | 55.24 | 0.43 | 0.03 | 0.005 | 0.15 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 77

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **Drill Cores** | **Samples** | **From (m)** | **To (m)** | **Thickness (m)** | **Lithology** | **Fe%** | **SiO2%** | **Al2O3%** | **Mn%** | **P%** | **LOI%** |
| FRP 09 | FRP-09_03 | 6.75 | 9.00 | 2.25 | IFS | 28.58 | 56.67 | 1.23 | 0.04 | 0.023 | 0.59 |
| FRP 09 | FRP-09_04 | 9.00 | 12.40 | 3.40 | IFS | 29.35 | 57.41 | 0.22 | 0.02 | 0.005 | 0.01 |
| FRP 09 | FRP-09_05 | 12.40 | 17.70 | 5.30 | ISC | 27.96 | 57.12 | 1.87 | 0.02 | <0.004 | 0.25 |
| FRP 09 | FRP-09_06 | 17.70 | 18.25 | 0.55 | QZT | 18.59 | 66.31 | 4.19 | 0.02 | <0.004 | 1.23 |
| FRP 09 | FRP-09_07 | 18.25 | 24.70 | 6.45 | QZT | 2.23 | 79.65 | 10.96 | 0.02 | 0.004 | 1.62 |
| FRP 10 | FRP-10_01 | 0.00 | 4.95 | 4.95 | ISC | 30.62 | 42.52 | 7.86 | 0.27 | 0.059 | 4.93 |
| FRP 10 | FRP-10_02 | 4.95 | 9.25 | 4.30 | IFS | 30.06 | 52.66 | 1.73 | 0.97 | 0.049 | 0.96 |
| FRP 10 | FRP-10_03 | 9.25 | 14.50 | 5.25 | IFS | 34.33 | 50.22 | 0.28 | 0.04 | 0.022 | 0.07 |
| FRP 10 | FRP-10_04 | 14.50 | 19.90 | 5.40 | IFS | 29.95 | 55.74 | 0.63 | 0.26 | 0.008 | 0.31 |
| FRP 10 | FRP-10_05 | 19.90 | 22.35 | 2.45 | IFS | 30.85 | 54.10 | 1.15 | 0.04 | 0.006 | 0.07 |
| FRP 10 | FRP-10_06 | 22.35 | 28.30 | 5.95 | QZT | 3.62 | 78.31 | 10.76 | 0.04 | 0.010 | 1.42 |
| FRP 11 | FRP-11_01 | 0.00 | 4.65 | 4.65 | CI | 29.87 | 56.46 | 0.28 | 0.04 | 0.009 | 0.19 |
| FRP 11 | FRP-11_02 | 4.65 | 9.60 | 4.95 | QZT | 2.24 | 79.28 | 11.73 | 0.06 | 0.016 | 2.02 |
| PRP 01 | PRP 01_01 | 0.50 | 1.50 | 1.00 | IFS | 32.15 | 48.25 | 1.81 | 0.07 | 0.012 | 1.47 |
| PRP 02 | PRP 02_01 | 0.30 | 0.80 | 0.50 | CR | 46.49 | 11.96 | 9.00 | 0.41 | 0.082 | 7.91 |
| PRP 02 | PRP 02_02 | 0.80 | 1.65 | 0.85 | CR | 48.57 | 10.97 | 8.09 | 0.61 | 0.066 | 6.97 |
| PRP 03 | PRP 03_01 | 0.00 | 0.70 | 0.70 | CR | 40.43 | 28.91 | 3.52 | 2.12 | 0.071 | 3.63 |
| PRP 03 | PRP 03_02 | 0.70 | 1.10 | 0.40 | IF | 44.67 | 17.05 | 6.85 | 0.16 | 0.086 | 8.12 |
| PRP 04 | PRP 04_01 | 0.00 | 0.40 | 0.40 | CR | 36.69 | 39.51 | 1.84 | 1.80 | 0.018 | 1.06 |
| PRP 04 | PRP 04_02 | 0.40 | 0.80 | 0.40 | ISC | 30.41 | 37.04 | 6.98 | 3.77 | 0.072 | 5.03 |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 78

---

| | | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| **Drill Cores** | **Samples** | **From (m)** | **To (m)** | **Thickness (m)** | **Lithology** | **Fe%** | **SiO2%** | **Al2O3%** | **Mn%** | **P%** | **LOI%** |
| PRP 04 | PRP 04_03 | 0.80 | 2.50 | 1.70 | IFS | 36.76 | 24.82 | 10.22 | 0.43 | 0.058 | 7.22 |
| PRP 05 | NS | 0.00 | 1.00 | 1.00 | ISC |  |  |  |  |  |  |
| PRP 06 | NS | 0.00 | 2.50 | 2.50 | LT |  |  |  |  |  |  |
| PRP 07 | PRP 07_01 | 2.55 | 3.40 | 0.85 | IFS | 39.66 | 34.71 | 2.79 | 0.45 | 0.039 | 2.13 |
| PRP 10 | NS | 0.00 | 3.20 | 3.20 | LT |  |  |  |  |  |  |
| PRP 11 | PRP 11_01 | 0.20 | 1.30 | 1.10 | CR | 37.61 | 26.99 | 7.80 | 2.34 | 0.068 | 5.12 |
| PRP 12 | PRP 12_01 | 0.80 | 2.00 | 1.20 | CR | 26.82 | 40.40 | 9.30 | 1.61 | 0.076 | 6.72 |
| PRP 13 | NS | 0.00 | 0.9 | 0.90 | LT |  |  |  |  |  |  |
| PRP 13 | NS | 0.90 | 1.00 | 0.10 | IC |  |  |  |  |  |  |
| PRP 14 | NS | 0.00 | 0.8 | 0.80 | IC |  |  |  |  |  |  |
| PRP 15 | PRP 15_01 | 0.00 | 2.00 | 2.00 | IC | 34.18 | 31.52 | 5.60 | 6.34 | 0.061 | 4.80 |
| PRP 15 | PRP 15_02 | 2.00 | 2.50 | 0.50 | IFS | 40.63 | 38.22 | 1.28 | 0.92 | 0.022 | 1.00 |
| PRP 15 | PRP 15_03 | 2.50 | 3.50 | 1.00 | Mn | 19.76 | 5.92 | 3.93 | 35.18 | 0.028 | 12.22 |
| PRP 16 | NS | 0.00 | 1.20 | 1.20 | LT |  |  |  |  |  |  |
| PRP 16 | NS | 1.20 | 2.30 | 1.10 | IC |  |  |  |  |  |  |
| PRP 17 | PRP 17_01 | 5.00 | 5.50 | 0.50 | IFS | 31.93 | 50.73 | 2.14 | 0.10 | 0.006 | 1.14 |
| PRP 18 | NS | 0.00 | 2.50 | 2.50 | SO |  |  |  |  |  |  |
| PRP 18 | NS | 2.50 | 10.00 | 7.50 | XI |  |  |  |  |  |  |
| PRP 19 | NS | 0.00 | 5.30 | 5.30 | LT |  |  |  |  |  |  |
| PRP 19 | PRP 19 _01 | 5.30 | 6.80 | 1.50 | XI | 12.03 | 41.93 | 21.83 | 1.92 | 0.094 | 14.59 |
| PRP 20 | NS | 0.00 | 2.00 | 2.00 | XI |  |  |  |  |  |  |
| PRP 20 | PRP 20_01 | 2.00 | 2.80 | 0.80 | XI | 11.79 | 50.57 | 22.75 | 0.15 | 0.063 | 7.99 |
| PRP 21 | NS | 0.00 | 6.80 | 6.80 | XI |  |  |  |  |  |  |
| ARP 01 | ARP 01 | 0.00 | 5.00 | 5.00 | XI | 13.29 | 55.47 | 11.84 | 5.04 | 0.053 | 1.98 |
| ARP 02 | ARP 02 | 0.00 | 5.30 | 5.30 | IC | 22.53 | 19.15 | 8.73 | 21.78 | 0.078 | 8.31 |
| ARP 03 | ARP 03 | 0.00 | 2.20 | 2.20 | HC | 64.82 | 1.71 | 0.69 | 0.14 | 0.007 | 0.32 |
| ARP 04 | ARP 04 | 0.00 | 4.30 | 4.30 | IC | 28.71 | 39.80 | 7.44 | 5.35 | 0.032 | 0.80 |

---

**Table 8.4-2: Global calculated contents**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 79

9. Data Verification

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;9.1. Site Visit

Dr. Volodymyr Myadzel, geologist, visited the Project area on November 11, 2021. The visit was attended by Joel Monteiro (VP, Administration & Operations, Atlas Critical Minerals) and Orlando Garcia da Rocha Filho (geologist and co-author of this Report).

The purpose of the visit was to get to know the Project and verify the work done in the field, in terms of geological exploration, in accordance with the basic principles governing the application and operation of the Regulation S-K 1300 TRS format: transparency, materiality and competence, and also in accordance with the best practices of the mineral industry.

The technical visit covered the core storage shack, the Project area, and the mineralized zone in the field.

The images below show photos taken during the site visit (Figure 9.1-1 and Figure 9.1-2).

![](ex96-1_053.jpg)

**Figure 9.1-1: Example of core sample box** 

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 80

![](ex96-1_054.jpg)

**Figure 9.1-2: Core sample shed storage.**

The drill hole collars are identified; however, all marks of the drill holes have been embedded by request of the area owner (Figure 9.1-3).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 81

![](ex96-1_055.jpg)

**Figure 9.1-3: Drill hole collar - technical site visit**

During the visit, it was observed that the Apollo technical team has been developing the work following the best practices of the mining industry.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 82

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**9.2. GeoAnalabs QA/QC (Quality Assurance and Quality Control)**

● GeoAnalabs' internal QA/QC procedures consist of:

● LIMS software is used during data acquisition in the laboratory to eliminate manual data input errors. The software is also used in the statistical treatment of Quality controls.

● Periodically calibration of all critical equipment.

● Verification of every 20 (twenty) samples with international standards.

● Five percent of the samples have the sample particle size evaluated during to ensure preparation with 95% passing the specified screen size.

● The lot size is 25 (twenty-five) samples. Duplicate samples are prepared for every 20 (twenty) samples, reference standard samples are inserted into the same stream at a minimum rate of 1 (one) in 20 (twenty) samples and a blank sample is inserted into each batch.

● Samples with anomalous results are repeated. If the repetition does not duplicate the original value, then a new sample is prepared from the reserve sample.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;9.3. QA/QC Methodology

QA/QC practices of Apollo's Rio Piracicaba Project was carried out using standard samples, to verify the analysis accuracy (the closeness of those measurements to the "true" or accepted value), and blank samples, to verify contamination (the inadvertent transference of material from one sample, or the environment to another sample).

No duplicates were applied in the QA/QC program of Apollo in the Rio Piracicaba Project, which makes the program incomplete, as the analysis precision (the ability to consistently reproduce a measurement in similar conditions) cannot be verified.

● Insertion of internationally certified standard with high iron ore content as blind sample every twenty-five samples regardless of drillhole - EURO 0135 -R00 standard.

Total of 10 samples analyzed for Fe+.

Below are the values of the certificates for Fe + that guided the QA/QC study by Apollo (Table 9.3-1).

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| **Analysis certificate 170010 – CTRS** | **Main elements** | **Main elements** | **Main elements** | **Main elements** | **Main elements** |
| **QA/QC** **EURO - 0135 - Fe +** | **Fe %** | **SiO2%** | **Al2O3%** | **Mn %** | **P %** |
| Certified value | 54.15 | 4.85 | 1.60 | 7.59 | 0.038 |
| Upper limit | 54.76 | 5.05 | 1.69 | 9.09 | 0.046 |
| Lower limit | 53.54 | 4.65 | 1.51 | 6.09 | 0.030 |
| Standard deviation | 0.31 | 0.10 | 0.05 | 0.75 | 0.004 |
| Expanded uncertainty | 0.61 | 0.20 | 0.09 | 1.50 | 0.008 |

---

**Table 9.3-1: Summary of the analysis**

● Insertion of internationally certified standard with low iron ore content as blind sample every twenty-five samples independent of drillhole - EURO Standard 0109-R00.

Total of 09 samples analyzed for Fe-.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 83

Below are the values of the certificates for Fe that guided the QA/QC study by Apollo (Table 9.3-2).

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| **Analysis certificate 170002 - CTRS** | **Main elements** | **Main elements** | **Main elements** | **Main elements** | **Main elements** |
| **QA/QC** **EURO - 0109 - Fe -** | **Fe %** | **SiO2%** | **Al2O3%** | **Mn %** | **P %** |
| Certified value | 34.33 | 35.42 | 3.65 | 0.59 | 0.086 |
| Upper limit | 34.72 | 35.90 | 3.86 | 0.65 | 0.103 |
| Lower limit | 33.94 | 34.94 | 3.44 | 0.53 | 0.069 |
| Standard deviation | 0.19 | 0.24 | 0.11 | 0.03 | 0.008 |
| Expanded uncertainty | 0.39 | 0.48 | 0.21 | 0.06 | 0.017 |

---

**Table 9.3-2: Summary of the analysis**

● Insertion of blank as blind sample by drillhole – EURO Standard 0415-R00.

A total of 10 blank samples analyzed.

Below are the values of the certificates for white that guided the QA/QC study by Apollo (Table 9.3-3).

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| **Analysis certificate 170017 - CTRS** | **Main elements** | **Main elements** | **Main elements** | **Main elements** | **Main elements** |
| **QA/QC** **EURO - 0415 - Branco** | **Fe %** | **SiO2%** | **Al2O3%** | **Mn %** | **P %** |
| Certified value | 0.02 | 99.25 | 0.40 | <0.01 | <0.004 |
| Upper limit | 0.04 | 99.93 | 0.48 | 0.02 | 0.006 |
| Lower limit | <0.01 | 98.57 | 0.32 | <0.01 | <0.004 |
| Standard deviation | 0.01 | 0.34 | 0.04 |  |  |
| Expanded uncertainty | 0.02 | 0.68 | 0.08 |  |  |

---

**Table 9.3-3: Summary of the analysis**

All standard and blank analysis certificates are available on the Apollo database.

● QA/QC monitoring was used to validate each of the eleven batches analyzed in GeoAnalabs. Every batch received a minimum of control standards depending on the number of samples analyzed.

Below are the XX and YY tables with the total, Fe +, Fe- and blank analyzed by drillholes and drillholes with their respective samples (Table 9.3-4 and Table 9.3-5):

---

| | | | |
|:---|:---|:---|:---|
| **Drillhole** | **Standard Fe +** | **Standard Fe -** | **Blank** |
| FRP 01 | 2 | 1 | 1 |
| FRP 02 | 2 | 2 | 1 |
| FRP 03 | 1 | 1 | 1 |
| FRP 04 | 1 | 1 | 1 |
| FRP 05 | 0 | 1 | 1 |
| FRP 06 | 1 | 0 | 1 |
| FRP 07 | 0 | 1 | 1 |
| FRP 08 | 1 | 0 | 1 |
| FRP 09 | 1 | 1 | 1 |
| FRP 10 | 0 | 1 | 1 |
| FRP 11 | 1 | 0 | 0 |
| **TOTAL** | **10** | **9** | **10** |

---

**Table 9.3-4: Totals of Fe+, Fe- and blank samples by drillholes**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 84

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| **Standard samples Fe+** | **Standard samples Fe+** | **Standard samples Fe -** | **Standard samples Fe -** | **Blank samples** | **Blank samples** |
| **FRP 01** | FRP 01 _01_05 | **FRP 01** | FRP 01 _04_05 | **FRP 01** | FRP 01 _09_05 |
| **FRP 01** | FRP 01 _07_05 | **FRP 02** | FRP 02_01_05 | **FRP 02** | FRP 02_11_05 |
| **FRP 02** | FRP 02_04_05 | **FRP 02** | FRP 02_07_05 | **FRP 03** | FRP 03_06 _05 |
| **FRP 02** | FRP 02_10_05 | **FRP 03** | FRP 03_01 _05 | **FRP 04** | FRP 04_08_05 |
| **FRP 03** | FRP 03_04 _01 | **FRP 04** | FRP 04_01_05 | **FRP 05** | FRP 05_07_05 |
| **FRP 04** | FRP 04_06_05 | **FRP 05** | FRP 05_03_05 | **FRP 06** | FRP 06_04_05 |
| **FRP 06** | FRP 06_01_05 | **FRP 07** | FRP 07_02_05 | **FRP 07** | FRP 07_04_05 |
| **FRP 08** | FRP 08_03_05 | **FRP 09** | FRP 09_01_05 | **FRP 08** | FRP 08_07_05 |
| **FRP 09** | FRP 09_03_05 | **FRP 10** | FRP 10_03_05 | **FRP 09** | FRP 09_07_05 |
| **FRP 11** | FRP 11_01_05 |  |  | **FRP 10** | FRP 10_07_05 |

---

**Table 9.3-5: Totals of Fe+, Fe- and blank samples by drillholes**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;9.4. QA/QC Results

**Figure 9.4-1: QA/QC** **charts Monitoring International Standard with Fe+ content.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 85

**Figure 9.4-2: QA/QC** **charts Monitoring International Standard with SiO<sub>2</sub>+ content.**

![](ex96-1_058.jpg)

**Figure 9.4-3: QA/QC** **charts Monitoring International Standard with AL<sub>2</sub>O<sub>3</sub>+ content.**

![](ex96-1_059.jpg)

**Figure 9.4-4: QA/QC** **charts Monitoring International Standard with Mn+ content.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 86

![](ex96-1_060.jpg)

**Figure 9.4-5: QA/QC** **charts Monitoring International Standard with P+ content.**

![](ex96-1_061.jpg)

**Figure 9.4-6: QA/QC** **charts monitoring International Standard with Fe- content.**

![](ex96-1_062.jpg)

**Figure 9.4-7: QA/QC** **charts monitoring International Standard with SiO<sub>2</sub>- content.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 87

![](ex96-1_063.jpg)

**Figure 9.4-8: QA/QC** **charts monitoring International Standard with AL<sub>2</sub>O<sub>3</sub>- content.**

![](ex96-1_064.jpg)

**Figure 9.4-9: QA/QC** **charts monitoring International Standard with Mn- content.**

![](ex96-1_065.jpg)

**Figure 9.4-10: QA/QC** **charts monitoring International Standard with P- content.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 88

![](ex96-1_066.jpg)

**Figure 9.4-11 QA/QC** **charts monitoring blank samples results.**

![](ex96-1_067.jpg)

**Figure 9.4-12: QA/QC** **charts monitoring blank samples results.**

![](ex96-1_068.jpg)

**Figure 9.4-13** **: QA/QC charts monitoring blank samples results.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 89

![](ex96-1_069.jpg)

**Figure 9.4-14: QA/QC** **charts monitoring blank samples results.**

![](ex96-1_070.jpg)

**Figure 9.4-15: QA/QC** **charts monitoring blank samples results.**

**9.5. Data Import and Validation**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;9.5.1. Database

The database used for Geological Modeling includes topographical data, information from the drillhole database and data for each sampling interval (test values for each controlled variable, lithological descriptions and deviation measures when appropriate). This data was obtained by application of best industry practices and verified by a consistent QA/QC routine, which was applied not only to data but also to the methodology of work as a whole.

The data provided is described in the topics below.:

● File in \*.xlsx format, referring to the database used for modeling, which consisted of:

○  ***Banco de Dados Rio Piracicaba Oficial.xlsx – project database;*** 

○  ***Descricao de Pocos.xlsx – geological description of the wells;*** 

○  ***Descricao de sondagem Ferro Piracicaba.xlsx – geological description of drill holes;*** 

○  ***Graficos Rio Piracicaba_14_08 (1).xlsx – various graphics;*** 

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 90

● Files in \*.dwg format referring to topographic survey and geological interpretation:

○  ***Aerofotogrametria_curvas_rio_piracicaba_01.dwg –*** topographic surface;

The main database used in this work is Excel file ***Banco de Dados Rio Piracicaba Oficial.xlsx***, which consists of tables:

● Collar Furos Rotativos – Collar of drill hole;

● Collar Canal – Collar of trench;

● Collar Poços – Collar of test pit

● Classificação Litologias – Lithology;

● Densidades – Density tests results;

● Banco de Dados – Assay;

In relation to the topographic surface, the data was given in a file in \*.DXF format, called ***topo_sem_vegetacao_1.dxf***.

Apollo has provided in separate files all assay certificates in Excel and Adobe pdf format.

The information about the initial data of the database is presented in Table 9.5.1-1.

---

| | |
|:---|:---|
| **Description** | **Quantity** |
| Diamond Drill Holes | 11 |
| Rotary Diamond Drilling metreage | 383.91 |
| Trench | 4 |
| Trench metreage | 21.80 |
| Test Pits | 19 |
| Test Pit, metreage | 59.75 |
| Notes on drill holes geological database | 100 |
| Drill hole sampling notes | 80 |
| Density Analyses | 48 |

---

**Table 9.5.1-1: Presentation of initial data**

The drill holes are distributed in an irregular grid, with distances between holes that vary between 75 and 150 m. vertical sections with NE-SW orientation, with an average distance of 75 m between sections. The provided drill holes and the vertical sections used in the interpretation are shown in Figure 9.5.1-1 below.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 91

![](ex96-1_074.jpg)

**Figure 9.5.1-1: Holes and vertical sections used for the interpretation of the Rio Piracicaba Project**

The batch list of analyzed iron and descriptive statistics is presented in Table 9.5.1-2 and other analyzed chemical elements are presented in Table 9.5.1-3.

---

| | | | | |
|:---|:---|:---|:---|:---|
| **Chemical analyses** | **Quantity** | **Minimum** | **Maximum** | **Average** |
| Fe global % | 80 | 2.22 | 64.82 | 28.96 |

---

**Table 9.5.1-2: Iron Analysis for all samples in the database**

---

| | | | | |
|:---|:---|:---|:---|:---|
| **Chemical analyses** | **Quantity** | **Minimum** | **Maximum** | **Average** |
| Si | 80 | 1.71 | 84.23 | 48.02 |
| Al | 80 | 0.09 | 22.75 | 4.65 |
| Mn | 80 | 0 | 35.18 | 1.37 |
| P | 80 | 0 | 0.094 | 0.02 |
| PPC | 80 | 0.01 | 14.88 | 2.62 |
| G1 +6.30 | 80 | 1.2 | 90.54 | 36.75 |
| Fe1 | 80 | 1.76 | 65.05 | 30.24 |
| Si1 | 80 | 1.52 | 89.1 | 44.80 |
| Al1 | 80 | 0 | 26.21 | 5.11 |
| Mn1 | 80 | 0 | 37.35 | 1.74 |
| P1 | 80 | 0.004 | 0.165 | 0.03 |
| PPC1 | 80 | 0.04 | 15.51 | 3.10 |
| G2 -6.30 +1.00 | 80 | 2.96 | 28.71 | 11.49 |
| Fe2 | 80 | 2.03 | 63.12 | 34.23 |
| Si2 | 80 | 3.22 | 81.27 | 40.47 |
| Al2 | 80 | 0.09 | 23.8 | 4.52 |
| Mn2 | 80 | 0 | 37.16 | 1.49 |
| P2 | 80 | 0.004 | 0.117 | 0.03 |
| PPC2 | 80 | -0.01 | 15.18 | 2.54 |
| G3 -1.00 | 80 | 3.33 | 92.1 | 51.76 |
| Fe3 | 80 | 1.91 | 64.4 | 27.03 |
| Si3 | 80 | 2 | 84.16 | 52.19 |
| Al3 | 80 | 0.06 | 22.21 | 4.30 |
| Mn3 | 80 | 0 | 26.25 | 0.88 |
| P3 | 80 | 0.004 | 0.084 | 0.02 |
| PPC3 | 80 | -0.09 | 16.95 | 2.27 |

---

**Table 9.5.1-3: Analyzed elements for all samples in the database.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 92

It is important to note that, for sampling intervals without sampling, no numerical values were assigned.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**9.5.2. Database Verification by the Micromine System**

The database was tested using specific processes to verify the existence of the errors listed below:

● The name of the drill hole is present in the collar file but is missing from the analytical database.

● The name of the drill hole is present in the analytical database but is absent in the collar file.

● The name of the drill hole appears repeated in the analytical database and in the collar file.

● The name of the drill hole does not appear in the collar file and in the analytical database.

● One or more coordinate notes are absent from the collar file.

● FROM or TO are not present in the analytical database.

● FROM>TO in the analytical database.

● Sampling intervals are not continuous in the analytical database (there are gaps between the logs).

● Sampling intervals overlap in the analytical database.

● The first sample does not correspond to 0 m in the analytical database.

● The azimuth is not in the range of 0-360 degrees.

● The dip is not in the range of 0-90 degrees.

● Azimuth or dip of the hole is missing.

● The total depth of the hole is shallower than the depth of the last sample.

Some minor errors were identified, mainly due to incorrectly entered intervals. The errors were checked with the Project geologist and the database was thereafter updated.

**9.6. QA/QC Conclusions**

The main conclusions are:

● The eleven lots had standard results within the expected range of the certificates and were approved.

● The results of the low- and high-grade standards, and blank samples, for Fe%, SiO<sub>2</sub>% and A<sub>2</sub>O<sub>3</sub>% showed low variation compared to the acceptance range, indicating stability and reliability of the critical parameters.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 93

● The results of the low- and high-grade standards, and blank samples, for Mn% and P% showed reasonable variation and within the acceptance ranges.

● Sample preparation, assaying and security are acceptable at this exploration stage.

No duplicates were applied in the QA/QC program of Apollo in the Rio Piracicaba Project, which makes the program incomplete, as the analysis precision (the ability to consistently reproduce a measurement in similar conditions) cannot be verified.

For exploration continuity, the QA/QC program must be improved, including field duplicates, coarse and pulp duplicates. Blanks must be inserted as coarse samples as the first sample of the lots. The must be a medium grade standard inserted in the QA/QC program.

In the QP's opinion, the sample preparation, analysis, security procedures and database verification at Rio Piracicaba Project comply with industry standards and are adequate for use in the estimation of Mineral Resources.

10. Mineral Processing and Metallurgical Testing

For the development of mineral processing and technological characterization studies. A 100 kg sample of the friable siliceous itabirite was composed of aliquots collected from the test pits as shown in the table below. It should be noted that this stage consisted of exploratory tests and, therefore, did not include the semi-compact itabirite, nor the colluvium, nor did it aim to evaluate the variability of mineralogical contents and compositions. Since this is an exploratory phase, the focus is on understanding the concentrability of the mineralized material by means of magnetic separation, without worrying about process optimization. Thus, the focus was on friable itabirite as it is the most relevant lithology in the deposit and, theoretically, the simplest material to concentrate. Based on this exploratory study, the results should be replicated and adjusted for other types of mineralized materials (Table 10-1).

---

| | | | |
|:---|:---|:---|:---|
| Hole | From | To | Mass (kg) |
| PRP03 | 0.5 | 1.8 | 23 |
| PRP15 | 1.8 | 3.5 | 27 |
| PRP16 | 1.2 | 2.3 | 24 |
| PRP17 | 3.5 | 5.1 | 24 |

---

**Table 10.0-1 Composition of the sample tested.**

For the studies, the Gorceix Foundation, a renowned research institute in the natural resources sector, located in Ouro Preto, was contracted. This sample was sent to the laboratory on June 29, 2021, when the technological characterization work began. In this study, after sample preparation, granulochemical tests were performed (more detailed than those performed with the drill cores), mineralogical assays and wet magnetic separation tests.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**10.1. Samples Preparation**

The sample was initially weighed and dried in an oven at 105 ºC. Then, the material was crushed in a 100% passing particle size at 6.35 mm. The entire sample was homogenized and quartered for subsequent tests, 50% of which was reserved for Apollo.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 94

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.2. Granulometric Assays

From the crushed material (passing 6.35mm), about 1 kg was separated for granulometric assays. For this, seventeen screens were used, as shown in the table below. The result was that the retained and passing screen of 1.0 mm are, respectively, 32.44% and 67.56% (Table 10.2-1).

---

| | | | | |
|:---|:---|:---|:---|:---|
| | | | **MASS** | **MASS** |
| | | | **DISTRIBUTION (%)** | **DISTRIBUTION (%)** |
| **GRAIN**<br>**SIZE**<br>**(µm)** | **GRAIN**<br>**SIZE**<br>**(mm)** | **DRY**<br>**WEIGHT**<br>**(grams)** | **RETAINED** | **ACCUMULATED** |
| 4750 | 4.750 | 66.42 | **6.29** | **6.29** |
| 3350 | 3.350 | 82.11 | **7.77** | **14.06** |
| 2360 | 2.360 | 67.49 | **6.39** | **20.44** |
| 1700 | 1.700 | 50.64 | **4.79** | **25.24** |
| 1400 | 1.400 | 33.03 | **3.13** | **28.36** |
| 1000 | 1.000 | 43.06 | **4.07** | **32.44** |
| 850 | 0.850 | 20.26 | **1.92** | **34.36** |
| 600 | 0.600 | 56.95 | **5.39** | **39.75** |
| 425 | 0.425 | 74.20 | **7.02** | **46.77** |
| 300 | 0.300 | 94.35 | **8.93** | **55.70** |
| 212 | 0.212 | 132.92 | **12.58** | **68.28** |
| 150 | 0.150 | 115.10 | **10.89** | **79.17** |
| 106 | 0.106 | 80.57 | **7.63** | **86.79** |
| 75 | 0.075 | 47.65 | **4.51** | **91.30** |
| 53 | 0.053 | 28.08 | **2.66** | **93.96** |
| 38 | 0.038 | 7.93 | **0.75** | **94.71** |
| <38 | <0.038 | 55.87 | **5.29** | **100.00** |
|  |  | **1056.63** | **100.00** |  |

---

**Table 10.2-1: Granulometric assay of the material performed by the Gorceix Foundation**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.3. Granulochemical Assays

With an aliquot of the crushed sample, a dry screening test was done on the following fractions: 4.75 mm; 3.35 mm; 2.36 mm; 1.70 mm; 1.40 mm; 1.00 mm; 0.850 mm; 0.600 mm; 0.425 mm; 0.300 mm; 0.212 mm; 0.150 mm; 0.160 mm; 0.075 mm; 0.053 mm; and 0.038 mm. Then, the fractions were composed generating the following samples for chemical assays:

● +3.0 mm;

● -3.0 mm and +1.0 mm;

● -1.0 mm and +0.425 mm;

● -0.425 mm and +0.150 mm;

● -0.150 mm and +0.038 mm; and

● -0.038 mm.

The results are presented in Table 10.3-1.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 95

![](ex96-1_124.jpg)

**Table 10.3-1: Results of the granulochemical assays**

In relation to the average content of the deposit, this sample presents a higher concentration of iron, however, it consists basically of siliceous friable itabirite, representing most of the mineralized material. The result of the granulochemical test of the crushed sample indicates a variation of iron content, higher in the coarse and fine fractions and lower in the intermediate fraction (0.4 to 0.1 mm). This result converges with those of the drilling. indicating the impossibility of commercialization of this iron mineralized material without concentration.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.4. Mineralogical Assay

With different grain size fractions. mineralogical assays were performed by optical microscopy. In this case, 08 aliquots of varied sizes were described using the microscope model DM750P, from Leica Microsystems, illustrated on Figure 10.4-1.

![](ex96-1_075.jpg)

**Figure 10.4-1: Microscope model DM750P, from Leica Microsystems.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 96

The results, presented in the following table, indicate a greater presence of quartz in the intermediate fraction, converging with the results of the granulochemical assay and different compositions for the iron mineralized material. In the coarse fractions, there is a predominance of goethite, martite and magnetite as iron-bearing minerals, an unusual situation, since there is a very oxidized/hydrated mineral (goethite) occurring together with a little altered mineral (magnetite). In the fine fraction, there is a predominance of hematite, especially tabular, probably comminuted in the previous crushing stage since there is visually very friable specularite in the ore (**Table 10.4-1**).

![](ex96-1_125.jpg)

**Table 10.4-1: Mineral composition**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.5. Wet Magnetic Separation

As a starting point for the concentration studies, the material was crushed by 1.0 mm and wet magnetic separation of 100 g of the comminuted material was performed. Initially, orientational tests were performed with hand magnets at 800G, 2,000G and 7,500G (Figure 10.5-1). At this stage, even a scavenger test was done, from the low-field test reject, using 7,500 G.

![](ex96-1_076.jpg)

**Figure 10.5-1: Hand magnets used in the wet magnetic separation test.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 97

Based on the mass recovery result and the visual appearance of the samples, it was defined that the indicated field to start the work is 2,000 G, probably recovering most of the magnetite contained in the sample. Next, the tailings were subjected to a 7,500 G hand magnet scavenger step. This scavenger tailings were then reconcentrated in successive steps in a WHC-type concentrator (Figure 10.5-2), with a GAP of 2.5 mm and variable fields of 4,000 G, 8,000 G, and 12,000 G. Finally, cleaner steps were performed.

![](ex96-1_077.jpg)

**Figure 10.5-2: WHC-type concentrator used in the magnetic concentration tests.**

According to the results presented in the following table (**Table 10.5-1**), it is possible to generate a concentrate with about 60.9% Fe after going through the rougher and cleaner steps, with mass recovery of 22.8%. The scavenger step generated a concentrate with 55.2% Fe and mass recovery of 23.1%. While its cleaner step generated a concentrate with 54.81% Fe content and 12.1% mass recovery.

Finally, the scavenger tailings fed the WHC, which in turn went through a cleaner stage and generated a concentrate with 59.2% Fe and mass recovery of 13.01%.

Thus, the final concentrate generated a content of 58.6% Fe and 9.3% SiO<sub>2</sub> and mass recovery of 40.9%. The mass recovery, in turn, was 57.6% (**Table 10.5-1**).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 98

![](ex96-1_126.jpg)

**Table 10.5-1: Results of the wet magnetic separation tests**

Dry magnetic separation using hand magnets was also performed. In the first test, qualitative analysis of the material was not performed. The feed concentrate generated 35.68% mass recovery with a 2000G field, and the scavenger concentrate generated 41.26% recovery with a 7500G field. The mass recovery of the concentrates was 76.94% Fe (**Table 10.5-2**).

---

| | | | | |
|:---|:---|:---|:---|:---|
|  | Mass Pull | Mass Pull |  |  |
| ID | STAGE | TOTAL | EQUIPMENT | MAGNETIC FIELD |
| Rougher Feed | **100.00** | **100.00** |  |  |
| Rougher Concentrate | **35.68** | **35.68** | HAND MAGNET | 2000 |
| Rougher Tailings | **64.32** | **64.32** |  |  |
| Rougher Feed | **100.00** | **64.32** |  |  |
| Rougher Concentrate | **64.15** | **41.26** | HAND MAGNET | 7500 |
| Rougher Tailings | **35.85** | **23.05** |  |  |

---

**Table 10.5-2: Two-stage dry magnetic separation test at 2000G and 7500G.**

The second test was performed with only one stage, generating a concentrate with mass recovery of 47.13% Fe using a 4500G field. There was also a qualitative analysis of the concentrate and tailings, with contents of 52.8% and 27.8% Fe, respectively (Table 10.5-3).

![](ex96-1_127.jpg)

**Table 10.5-3: One-step dry magnetic separation test at 4500G**

These results point out that one stage at 4500G does not generate a product with appropriate quality for commercialization. The first test with the two stages, despite generating higher mass recovery, does not bring the quality of the concentrates, preventing any conclusion about the material.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 99

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.6. Quantitative Minerography

The Gorceix Foundation also conducted a study of quantitative iron ore minerography using reflected light optical microscopy. The sample used was crushed to 1.00 mm and concentrated with magnetic separators of 1000G, 4500G and 3000G, generating three samples: COD17, COD18 and COD19 (Figure 10.6 1).

The determination of the degree of liberation indicated that the hematite and magnetite in the three samples have at least 95% degree of liberation, while the quartz showed a higher degree of liberation in the samples that went through the reclean stages, reaching 61%.

**Figure 10.6-1: Samples degree of liberation.**

The COD17 sample (**Figure 10.6-1**) presents different magnetic minerals. Magnetite is the first, which is sometimes in the beginning of martitization process (the process of transformation of magnetite into hematite through oxidation) and the second mineral cannot be defined by the reflected light microscopy technique. This unidentified mineral shows alteration to goethite in a disseminated way (**Figure 10.6-2** and **Figure 10.6-6**). The main mineral in this sample is martite, followed by the sum of these two magnetic minerals.

Both sample COD18 (**Figure 10.6-3**) and COD19 (**Figure 10.6-4**) do not show significant values of magnetite and the unidentified mineral. The main iron mineral in these samples is lamellar hematite. The liberation of the iron and the unknown mineral from the ganga is above 95%.

According to the study, low intensity magnetic separation would be sufficient to separate the magnetic minerals from the others. Sample COD 18 and COD9 show an intermediate to low magnetic susceptibility, probably resulting from the martites that appear in these samples. Quartz liberation is considered low for all samples analyzed.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 100

![](ex96-1_079.jpg)

**Figure 10.6-2: Sample of COD17 - seen through reflected light microscopy.**

**Figure 10.6-3: Sample COD18 - seen through reflected light microscopy.**

**Figure 10.6-4: Sample COD19 - as seen through reflected light microscopy.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 101

**Figure 10.6-5: Unidentified mineral in sample COD17 with disseminated change to goethite - seen through reflected light microscopy.**

**Figure 10.6-6: Unidentified mineral in sample COD17 with disseminated alteration to goethite – view.**

**10.7. Metallurgical Testing**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.1. Executive Summary

At the request of Apollo, an iron ore sample was submitted to beneficiation testwork at SGS-Geosol, an independent and well-known analytical laboratory in Vespasiano, state of Minas Gerais in Brazil, from October to November 2021, including sample preparation, chemical analysis, Bond BWi and magnetic separation at low and high intensity fields. Main contacts for the job were Joel Monteiro, VP, Administration and Operations for Atlas Critical Minerals, as well as Leonardo Moura, Project Metallurgist, and Renato Ferreira, Project Supervisor for SGS-Geosol. The principal objective of the work was to define the best magnetic separation route for the sample supplied by Apollo.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 102

![](ex96-1_084.jpg)

**Figure 10.7.1-1 SGS-Geosol analytical laboratories in Vespasiano, Minas Gerais, Brazil**

Results of the testwork reported here indicate that:

● The head assay of the sample was 34.9% iron, 48.0% silica, 1.5% alumina, 0.02 % phosphorous, 0.27% manganese and 0.9% LOI at 1000 Celsius, with titanium, potassium, barium and calcium lower than 0.1%;

● The Bond work index was 26.4 kWh / metric ton, which is extremely high for iron ore. This result justifies the inclusion of a pre-concentration stage to reduce the silica content of the ore and thus decrease the energy required for grinding;

● Best magnetic separation route was to pre-concentrate the ore at top size of 2 mm using a DryMAG at 3000 Gauss, then grinding to P80 of 0.300 mm followed by wet magnetic separation at 4000 Gauss using a MIMS and at 11000 using a WHIMS (equipment shown in Figure 2). The final concentrate grade yield by this route was 64.2% Fe and iron recovery 83.4%;

● The DryMAG tail, however, represented more than 40% of the feed mass and contained less than 5% iron. Beyond demonstrating the benefit of pre-concentrating the ore, this result also suggests that the sample used for testwork had an excess of sterile material.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**10.7.2. Objective**

The main objective of the testwork reported here was to define the best magnetic separation route for the sample supplied by Apollo. As indicated in Figure 1, four options were tested:

● ROUTE A – grinding to P80 of 0.300 mm, magnetic separation MIMS at 4000 Gauss followed by WHIMS at 11000 Gauss, without any type of pre-concentration;

● ROUTE B – grinding to P80 of 0.150 mm, magnetic separation MIMS at 4000 Gauss followed by WHIMS at 11000 Gauss without any type of pre-concentration;

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 103

● ROUTE C – pre-concentration at 3000 Gauss, grind to P80 of 0.300 mm, magnetic separation MIMS at 4000 Gauss and WHIMS at 11000 Gauss;

● ROUTE D – pre-concentration at 3000 Gauss, grind to P80 of 0.150 mm, magnetic separation MIMS at 4000 Gauss and WHIMS at 11000 Gauss;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.3. Scope

As per Figure 10.7.3-1, the experimental procedure encompassed the following steps:

● Receive the original iron ore sample, approximately 400 kg weight;

● Stage crush to 3.35 mm and homogenize by means of a chevron pile;

● Separate 10 kg of the original sample for the Bond BWi standard test;

● Crush the remaining material to top size of 2 mm and homogenize by forming a new pile;

● Separate another 10 kg of the original sample for chemical analysis, as well as determination of the size distribution and grinding times. In addition, separate two charges of 50 kg and one charge of 100 kg for the magnetic separation testwork. Reserve the remainder;

● Grind the two charges of the original sample to P80 of 0.30 mm and 0.15 mm and determine the size distribution of the sample in each case;

● Submit the two charges of the original sample to magnetic separation, with the MIMS operating at 4.000 Gauss followed by the WHIMS at 11.000 Gauss and matrix of 2.5 mm;

● Submit the 100 kg charge of the original sample to pre-concentration using the DryMAG;

● Homogenize the pre-concentrate and separate 10 kg for chemical analysis, as well as determination of the grinding times;

● Divide the remaining mass of pre-concentrate into two charges;

● Grind the two charges of pre-concentrate to P80 of 0.30 mm and 0.15 mm;

● Submit the two charges of pre-concentrate to magnetic separation, with the MIMS operating at 4.000 Gauss followed by the WHIMS at 11.000 Gauss;

● Analyze all concentrates and tailings via XRF;

● Mass balance the raw data in order to estimate iron recovery in each test.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 104

**Figure 10.7.3 1: Testwork flowsheet.**

Overall, testwork encompassed: crushing 400 kg of the original sample to top size of 3.35 mm and then to 2 mm, two stages of homogenization, standard Bond BWi test, pre-concentration using the DryMAG, grinding to P80 of 0.300 and 0.150 mm and magnetic separation using the MIMS and WHIMS. The experimental data was mass balanced by means of the BILMAT program to reconcile masses and assays and allow comparison between the results generated by means of routes A to D.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 105

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.4. Equipment

As shown in Figure 10.7.4-1, the work reported here was conducted by means of the following equipment:

● Jaw crusher BRASCRUSHER, Brastorno;

● DryMAG (medium intensity magnetic separator, dry drum), CARPCO RED 25;

● Bench scale mill, 20 cm x 30 cm, Brastorno;

● MIMS (medium intensity magnetic separator, wet drum), Mineral Technologies;

WHIMS (high intensity magnetic separator, carousel), WHC01S, Inbras-Eriez.

 **Figure 10.7.4-1: Testwork equipment.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.5. Experimental Results

Chemical analysis in triplicate of the original sample, summarized in Table 10.7.5-1, indicates 34.9% iron, 48.0% silica, 1.5% alumina, 0.02 % phosphorous, 0.27% manganese and 0.9% LOI at 1000 Celsius. Titanium, potassium, barium and calcium are lower than 0.1%. In qualitative terms, these results indicate silica and alumina as the main contaminants of the sample. All other contaminants, especially phosphorus, are already very low prior to magnetic separation.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 106

**Table 10.7.5-1**

The grinding curves of the original sample are shown in Figure 10.7.5-1. According to these results, grinding for 3:00 minutes was required to reach P80 of 0.300 mm, and 16:00 minutes for P80 of 0.150 mm.

![](ex96-1_088.jpg)

**Figure 10.7.5-1: Grinding curves of the original sample.**

Aliquots of the original sample were sized at different points of the testwork flowsheet in order to measure / confirm the P80. The results in Figure 4 indicate P80 of 0.500 mm for the original sample crushed to top size of 2 mm and confirm P80 of 0.300 mm and 0.150 mm for the original sample ground for the times given by the grinding curves.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 107

![](ex96-1_089.jpg)

**Table 10.7.5-2: Size distribution of the original sample at different P80s**

Results of the Bond BWi standard comminution test for the original sample are summarized in Table 10.7.5-2, indicating a value of 26.4 kWh / metric ton for the work index. This is extremely high for iron ore and justifies the inclusion of a pre-concentration stage to reduce the silica content of the ore and thus decrease the energy required for grinding.

Chemical analysis of the DryMAG pre-concentrate is summarized in Table 10.7.5-3, indicating 56.4% iron, 14.5% silica, 2.0% alumina, 0.02 % phosphorous, 0.41% manganese and 1.4% LOI at 1000 Celsius. As compared to the original sample, the pre-concentrate had less than one third of the silica content and was more than 20 percentage points higher in iron assay. It is also important to note that the DryMAG tail exhibited less than 5% iron assay.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 108

**Table 10.7.5-3**

The grinding curves of the pre-concentrate generated by the DryMAG are shown in Figure 10.7.5-3. As can be seen, after reducing the silica content of the ore, the grinding time dropped to 2:00 minutes for a target P80 of 0.300 mm and 11:00 minutes for 0.150 mm.

![](ex96-1_091.jpg)

**Figure 10.7.5-2: Grinding curves of the pre-concentrate.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.6. Mass Balancing

The results of the magnetic separation testwork were mass balanced using the BILMAT software to reconcile the experimental masses and assays, allowing more reliable estimation of the iron recovery. The comparison shown in Figure 10.7.6-1 demonstrates that the experimental data balances very well, with just a few outliers. Further details are given in the Appendix.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 109

**Figure 10.7.6-1: Mass balanced versus experimental assays.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;10.7.7. Selection of the Best Magnetic Separation Route

The results of the magnetic separation testwork summarized in Table 10.7.7-1 indicate that:

● ROUTE A and ROUTE B, without pre-concentration, yielded poor results, with a final concentrate grade below 55% Fe and iron recovery below 80%;

● ROUTE C, encompassing pre-concentration, grinding to P80 of 300 microns followed by MIMS at 4000 Gauss and WHIMS at 11000 Gauss, was proved to be the best option, leading to a final concentrate grade of 64.2% Fe and iron recovery 83.4%;

● The DryMAG tail, however, represented more than 40% of the feed mass and contained less than 5% iron. Beyond demonstrating the benefit of pre-concentrating the ore, this result also suggests that the sample used for testwork had an excess of sterile material;

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 110

**Table 10.7.7-1**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 111

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**10.7.8. Conclusions**

Results of the testwork reported here indicate that:

● The head assay of the sample was 34.9% iron, 48.0% silica, 1.5% alumina, 0.02 % phosphorous, 0.27% manganese and 0.9% LOI at 1000 Celsius, with titanium, potassium, barium and calcium lower than 0.1%;

● The Bond work index was 26.4 kWh / metric ton, which is extremely high for iron ore. This result justifies the inclusion of a pre-concentration stage to reduce the silica content of the ore and thus reduce the energy required for grinding;

● Best magnetic separation route was to pre-concentrate the ore at top size of 2 mm using a DryMAG at 3000 Gauss, then grinding to P80 of 0.300 mm followed by wet magnetic separation at 4000 Gauss using a MIMS and at 11000 using a WHIMS (equipment shown in Figure 2). The final concentrate grade yield by this route was 64.2% Fe and iron recovery 83.4%;

● The DryMAG tail, however, represented more than 40% of the feed mass and contained less than 5% iron. Beyond demonstrating the benefit of pre-concentrating the ore, this result also suggests that the sample used for testwork had an excess of sterile material.

![](ex96-1_094.jpg)

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 112

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 113

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 114

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 115

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 116

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 117

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 118

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 119

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 120

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 121

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 122

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 123

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 124

**10.8. Conclusion**

Based on the results obtained, it is possible to demonstrate that friable itabirite presents characteristics that allow the application of magnetic separation as a concentration methodology. Based on Figure 10.6-1, it is possible to verify that there are highly magnetic particles (which are concentrated in low-intensity magnetic fields), but also low-magnetic particles, with a 20 to 30% mass pull distribution for each rougher test at different intensities.

The results show that, without a grinding stage, it is not possible to obtain sufficient quality to meet market demand (+62% Fe). At 1.0 mm particle size, it was possible to obtain a compound concentrate with about 56% Fe and mass pull of 52%. Rio Piracicaba Iron Project is already developing a second phase of testing drill core samples with grinding in an attempt to obtain better results.

The QP is of the opinion that the data derived from the testing activities described above are adequate for the purposes of defining a Mineral Resource. The results from ROUTE C, encompassing pre-concentration, grinding to P80 of 300 microns followed by MIMS at 4000 Gauss and WHIMS at 11000 Gauss, was proved to be the best option, leading to a final concentrate grade of 64.2% Fe and iron recovery of 83.4% with silica and alumina concentrations below the penalty levels.

11. Mineral Resource Estimates

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**11.1. Introduction**

This topic describes the methodology and devices used in the mineral resource estimation of the Iron deposit from the Rio Piracicaba Project, located in the city of Rio Piracicaba, Minas Gerais, Brazil.

Dr. Myadzel is responsible for the resource estimation methodology.

The resource estimate was made in accordance with the standards accepted by Regulation S-K 1300.

The effective date of this estimate is the receipt date of the latest data on the resource estimate, which is March 30, 2022.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; **11.1.1 Point of Reference**

The specific point of reference for the mineral resources estimated in the RP Project has the following coordinates: 19<sup>o</sup> 56' 24.40" S and 43<sup>o</sup> 12' 7.58" W. The specific point of reference is also identified in the map below.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.2. Statistical Analysis

This TRS used a classical statistical analysis to perform the following tasks:

● Assess the need to separate populations if there is more than one population.

● Evaluate the effect of population mixing.

● Determine the grade distribution.

Statistical analysis was performed for Fe global (%) samples grouped throughout the data matrix (Figure 11.2-1). Then the analysis was performed for the internal samples to the mineralized zone (Figure 11.2-2).

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 125

![](ex96-1_107.jpg)

**Figure 11.2-1: Histogram of Fe global (%) grade distribution for all samples**

![](ex96-1_108.jpg)

**Figure 11.2-2: Histogram of Fe global (%) grade distribution for samples inside the mineralization zone**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 126

Table 11.2-1 shows the summary of the statistical analysis for the iron present in the provided work data.

---

| | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|
| **Substance** | **Sample Quantity** | **Minimum** | **Maximum** | **Mean** | **Median** | **Variance** | **Std. Deviation** |
| All samples | All samples | All samples | All samples | All samples | All samples | All samples | All samples |
| Fe (%) | 80 | 2.22 | 64.82 | 28.97 | 30.77 | 128.832 | 11.350 |
| Samples inside the mineralization zone | Samples inside the mineralization zone | Samples inside the mineralization zone | Samples inside the mineralization zone | Samples inside the mineralization zone | Samples inside the mineralization zone | Samples inside the mineralization zone | Samples inside the mineralization zone |
| Fe (%) | 68 | 19.76 | 64.82 | 32.87 | 31.42 | 43.716 | 6.612 |

---

**Table 11.2-1: Summary of the statistical analysis of the provided grades**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.3. Interpretation

The geological interpretation was generated by using the 3D software package Micromine. Wireframe surfaces were generated by connecting cross-sectional interpretations to model the topography, supergene alteration zones of rocks and mineralization zone limits.

Rotary Diamond (DD) drilling data were used to perform the orebodies interpretation. The drill hole grid in the work area is characterized by its irregularity. The interpretation lines were created in the string format (\*.str) of the Micromine software. All interpretation strings have a close connection to the sampling intervals.

For the definition of mineralization zone the criteria of Grade Compositing and Lithology description were applied. Intervals grading above 28% (Fe global) and lithology description Itabirito were interpreted as mineralization. The geological interpretation was made through the interpretation of all ore bodies by 9 vertical sections.

All strings of interpretation have a close connection with the sampling intervals, as shown in Figure 11.3-1.

![](ex96-1_109.jpg)

**Figure 11.3-1: Geological interpretation. section 02**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 127

All interpreted strings were extrapolated above the topographic surface to ensure that between the topographic surface and the top of the body there were no voids. Strings scanned were used to assist in visualizing the overall geological structure of the deposit.

When interpreting geological boundaries of the ore bodies, interpolation was performed at half-distance grid operating in each area while maintaining the thickness of the ore.

The following conditions were used in the interpretation of the ore bodies:

● The interpretation was based on the element iron and lithological code originally described.

● All strings were interpreted accurately connected to the appropriate holes.

● The interpretation was built up to half the distance of the exploitation grid. corresponding to the first and last section probed.

● Also considered the structural position of the mineralization zone.

In vertical sections the bodies of the iron formation were interpreted according to the sampling data.

**11.4. Triangulation**

The triangulation may be divided into closed wireframe (orebodies) and building surface (topography and alteration zone).

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.4.1. Topography

For the construction of a Digital Surface Model (DSM) data files ***\*.STR*** were used. As a result, the present topographic surface in Figure 11.4.1-1 was obtained.

**Figure 11.4.1-1: Surface digital topographic base.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 128

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.4.2. Soil Zone

The soil zone that determines the separation of friable and compact ore was based primarily on the hardness and friability logging from the geological log, as well as revisiting the drill core photos. There was an alteration zone contact interpreted on the contact between friable and compact material.

From the file GEOLOGY.DAT, which was corrected manually, base surfaces of the alteration zone were created. From the file SOIL.STR, which was corrected manually, base surfaces of the alteration zone were created. Grid creation method was used with IDW2 (inverse distance weighting with power 2) interpolation method. The cell size is 1×1 meters. Grids were converted into digital surfaces DTM (Digital Terrain Model), as shown in Figure 11.4.2-1.

![](ex96-1_111.jpg)

**Figure 11.4.2-1: Surface digital soil zone.**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.4.3. Wireframe Closed

The strings were used in the interpretation model to generate a continuous three-dimensional triangulated mesh for each of the ore bodies. The strings of the sections are shown on the screen, consequently, intertwine with strings interpretation of subsequent sections (Figure 11.4.3-1).

The interpretation of the ore bodies was extrapolated above topography. After triangulation extrapolated bodies, the solids were cut by the topographic surface and soil surface. With this, the continuity of the bodies to the topography without loss of volume and mass was insured. In Figure 11.4.3-2 is the triangulation result of all orebodies cut by the topographic surface.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 129

**Figure 11.4.3-1: Triangulation of orebodies.**

![](ex96-1_113.jpg)

**Figure 11.4.3-2: Triangulation of the ore bodies cut by topographic surface and soil surface. View all ore bodies in the area.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 130

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.5. Data Selection

The selection of drillhole data is a standard certification procedure. It is essential that, in classical statistical analysis, geostatistics and the grade interpolation process, the correct samples are used. The solids of the element to be analyzed were used for the drill holes sample selection.

In order that the samples used for the interpolation had the same weight by size, analyzes were carried out to define the size of the composites. According to the analysis made for the size of the samples analyzed, values ranging from 0.40 to 5.90 m were found, with a mean of 2.97 m. The graph of sampling lengths distribution is shown in Figure 11.5-1.

![](ex96-1_114.jpg)

**Figure 11.5-1: Histogram of size distribution of samples inside the mineralized zone**

The length of 1 m was adopted for sediment iron rock (colluvium, canga) composite samples, converting the size of all samples into 1 m. The process of creating the composite intervals started at the hole collar and proceeded in the direction of drilling (downwards). Intervals below 0.40 m were excluded.

For metamorphic iron rock (Itabirite) composite samples, all sample sizes were converted to 3 m. The process of creating the composite intervals started at the hole collar and proceeded in the direction of drilling (downwards). Intervals below 1.00 m were excluded.

The results of statistical analyses of composited samples are shown in Table 11.5-1.

---

| | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|
| **Element** | **Number of<br> samples** | **Minimum** | **Maximum** | **Mean** | **Median** | **Variance** | **Standard<br> deviation** |
| Samples composited (colluvium. canga) | Samples composited (colluvium. canga) | Samples composited (colluvium. canga) | Samples composited (colluvium. canga) | Samples composited (colluvium. canga) | Samples composited (colluvium. canga) | Samples composited (colluvium. canga) | Samples composited (colluvium. canga) |
| Fe global | 20 | 24.71 | 47.53 | 33.134 | 32.88 | 46.65397 | 6.830371 |
| Samples composited (friable itabirite) | Samples composited (friable itabirite) | Samples composited (friable itabirite) | Samples composited (friable itabirite) | Samples composited (friable itabirite) | Samples composited (friable itabirite) | Samples composited (friable itabirite) | Samples composited (friable itabirite) |
| Fe global | 52 | 22.53 | 64.82 | 32.56941 | 31.69967 | 31.12212 | 5.57872 |
| Samples composited (compact itabirite) | Samples composited (compact itabirite) | Samples composited (compact itabirite) | Samples composited (compact itabirite) | Samples composited (compact itabirite) | Samples composited (compact itabirite) | Samples composited (compact itabirite) | Samples composited (compact itabirite) |
| Fe global | 16 | 22.25 | 30.33 | 28.64935 | 29.33 | 3.824173 | 1.955549 |

---

**Table 11.5-1: Results of statistical analysis performed.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 131

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**11.6. Capping**

After analysis of the data, it was defined not to use capping, since its influence on the calculation will not be significant.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.7. Modelling

The block model was generated from the discretization of the three-dimensional solids into blocks of defined dimensions. The parameters of the blocks are listed below. in Table 11.7-1.

---

| | | | | | |
|:---|:---|:---|:---|:---|:---|
| **Directions** | **Minimum** | **Maximum** | **Block Size (m)** | **Minimum sub-block<br> size (m)** | **Number of primary blocks** |
| East | 687750 | 688750 | 25 | 2.50 | 21 |
| North | 7794000 | 7794500 | 25 | 2.50 | 11 |
| RL - Elevation | 500 | 900 | 5 | 1.00 | 81 |

---

**Table 11.7-1: Block model parameters**

The process of discretization of the solid included the sub-blocking process. Initially, the model was filled with blocks measuring 25 (X) by 25 (Y) by 5 (Z) m, which were divided into subunits of smaller size, with a factor for size subdivision of 10 by 10 by 5 in contact with the surrounding three-dimensional solids.

As a result, at the limit with solids, the size of the blocks became 2.5 (X) by 2.5 (Y) by 1.0 (Z) m. The initial size of the blocks was chosen based on the morphology of the orebodies and the size of the exploration grid. This model contains 46,763 blocks.

The solid was used to create a block model within the mineralized geological body. This solid was used to encode the respective blocks. The digital model of the topographic surface was used to limit the block models by the vertical axis. The blocks were generated with faces parallel to the North/South and East/West axes.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.8. Grade Interpolation and Mineral Resource Classification

Iron (Fe global %) and other elements were interpolated to the empty block model using IDW2 (Inverse Distance Weighting with weight 2) and IDW3 (Inverse Distance Weighting with weight 3) methods. The parameters used for all three methods were the same and are described below.

The grade estimation was performed in four consecutive steps (rounds) using different sizes of search radius, criteria of number of composite samples and number of holes.

The definition of the search ellipse parameters was based on the morphology of the orebodies and the size of the exploration grid. The search ellipsoid was divided into four sectors. The orientation of the search ellipsoid and the axes sizes for interpolated element are described in Figure 11.8-1, Table 11.8-1 and Table 11.8-2. The parameters of the search ellipse radii and interpolation parameters for each step (round) of the grade estimation are described in Table 11.8-3.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 132

---

| | | | |
|:---|:---|:---|:---|
| **Element** | **First axis azimuth** | **First axis dip** | **Second axis dip** |
| Fe (%) | 40 | 14 | 6 |

---

**Table 11.8-1: Direction of the search ellipsoid axes for Fe global (%)**

---

| | | |
|:---|:---|:---|
| **Element** | **Axis** | **Length (meters)** |
| Fe (%) | 1 | 75 |
| Fe (%) | 2 | 50 |
| Fe (%) | 3 | 5 |

---

**Table 11.8-2: Direction of the search ellipsoid axes and search ellipse parameters for Fe (%)**

---

| | | | | |
|:---|:---|:---|:---|:---|
| **Round** | **Search ellipse size factor** | **Minimum <br> composites** | **Maximum<br> composites** | **Minimum hole <br> number** |
| 1 | 1 | 2 | 12 | 2 |
| 2 | 2 | 2 | 12 | 1 |
| 3 | 3 | 1 | 12 | 1 |
| 4 | 100 | 1 | 12 | 1 |

---

**Table 11.8-3: Search radius and interpolation parameters for Fe (%) and interpolation methods**

![](ex96-1_115.jpg)

**Figure 11.8-1: The orientation of the search ellipsoid and the axes sizes for interpolated**

The blocks for each zone of the ore body were interpolated using only composite samples belonging to the corresponding part of the mineralized body, i.e., the waste samples were not used. During the interpolation, the discretization process for each block, evaluated by the X, Y and Z axes with a factor of 2, was used. This makes it possible to evaluate each block in eight (8) positions and assign to the center of the block an average of these evaluations. This increases the precision of the grade estimation in each block.

The limitations presented by each sector of a search ellipse were the maximum number of points in the sector and the minimum total number of points in the interpolation that varies depending on the size of the ellipse, from 3 to 1. Thus, the maximum total number of samples involved in the interpolation was 12 samples.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 133

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.9. Mineral Resource Classification

The resources were classified as Indicated and Inferred according to the degree of reliability of the different rounds and data used for the interpolation of the block model. Solids were created and were used to stamp the inner blocks to each of these reliability zones.

For the Indicated Resource, a solid that encompasses the blocks Friable Itabirite that were stamped in the second round of interpolation and based on the regular 100-meter drilling grid was created. For interpolation, a minimum of 2 holes and 2 composite samples were used, average distance of interpolation samples is 65 meters.

The other blocks were classified as Inferred Resource.

The three-dimensional visualization of the block model with the spatial distribution of the resource classes is shown in the three-dimensional visualization of the block model in Figure 11.9-1.

![](ex96-1_116.jpg)

**Figure 11.9-1: Resources classified as Indicated and Inferred**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;**11.10. Density Values for the Block Model**

Allocation of density values to the block models was made by direction allocation of the value 3.28 t/m³ for compact itabirite, 3.10 t/m³ for friable itabirite and 1.80 t/m³ for colluvium to each value block. It was considered the same density to all petrographic types of ore, which was obtained from the average of all density measurements.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 134

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.11. Block Model Verification

The comparison histograms and probability plots are illustrated in Figure 11.11-1.

---

| | |
|:---|:---|
| ![](ex96-1_117.jpg) | ![](ex96-1_118.jpg) |
| ![](ex96-1_119.jpg) | ![](ex96-1_120.jpg) |

---

**Figure 11.11-1: Histogram and graph of the probability of distribution of Fe (%) in composite samples (left) and block model interpolated by the IDW2 method (right)**

In addition, the interpolated grades were compared visually with the actual samples' grades. A comparison between the actual samples and interpolated grades shows an approximate relation, indicating the precision of the estimated grades of the block model. Several sections were constructed showing the grades of the block model and the grades along the drill holes. The visual comparison is illustrated in the following figures (Figure 11.11-2 through Figure 11.11-4).

![](ex96-1_121.jpg)

**Figure 11.11-2: Fe (%) visualization with block model - Section 2.**

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 135

![](ex96-1_122.jpg)

**Figure 11.11-3: Fe (%) visualization with block model – Section 4**

![](ex96-1_123.jpg)

**Figure 11.11-4: Fe (%) visualization with block model – Section 6**

The average grade of the chemical variable from the model was compared with the average grade of the chemical variable from the sampling interval file for all elements interpolated by the three used methods. The comparison showed a very satisfactory result.

A comparison was made between a provisional polygonal estimation using the "interval" weighting method and the interpolation data by the IDW2 and IDW3 methods for orebodies. This comparison is presented in Table 11.11-1. The average difference between the average grades of Fe (%) for all interpolation methods, in relative percentages, lower than 0.25% and the difference between the volumes of the solid and of the block model is less than 0.012%. These results confirm the good convergence and high reliability of the estimated block model data.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 136

---

| | | | | |
|:---|:---|:---|:---|:---|
| <br>**ESTIMATION METHOD** | **VOLUME**<br>**m³** | **TON.**<br>**t** | **DENSITY**<br>**t/m³** | **Fe%** |
| Block Model (IDW2) | 2228581.25 | 6908601.875 | 3.1 | 32.50571988 |
| Block Model (IDW3) | 2228581.25 | 6908601.875 | 3.1 | 32.58822368 |
| Relative difference % | 0 | 0 | 0 | -0.253813159 |
| Solid | 2228298.36 | 6907724.917 | 3.1 | 32.61253037 |
| Block Model (IDW2) | 2228581.25 | 6908601.875 | 3.1 | 32.50571988 |
| Relative difference % | -0.012695326 | -0.012695326 | 0 | 0.327513656 |

---

**Table 11.11-1: Data comparison between different estimation methods for Fe (%)**

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;11.12. Resource Evaluation Results

The results of the evaluation of resources, based on the block model interpolated by the Inverse Distance Weighting with weight 2 method of iron ore of the Rio Piracicaba Project is presented in the following Table 11.12-1.

---

| | | | | | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|:---|
| <br>**CLASS** | <br>**TYPE** | **VOLUME** <br>**M³** | **TONNES** <br>**t** | **DENSITY**<br>**(t/m³)** | **Fe**<br>**pct** | **Si**<br>**pct** | **Al**<br>**pct** | **Mn**<br>**pct** | **P**<br>**pct** | **PPC**<br>**pct** |
| Indicated | **FRIABLE ITABIRITE** | 853593 | 2646141 | 3.10 | 33.74 | 46.50 | 1.97 | 1.04 | 0.02 | 121 |
| Inferred | **COLLUVIUM** | 67725 | 121905 | 1.80 | 31.11 | 33.17 | 10.99 | 1.03 | 0.05 | 8.06 |
| Inferred | **FRIABLE ITABIRITE** | 1025538 | 3179166 | 3.10 | 31.61 | 44.97 | 2.92 | 3.14 | 0.02 | 1.75 |
| Inferred | **COMPACT ITABIRITE** | 581006 | 1905701 | 3.28 | 28.35 | 57.68 | 0.92 | 0.06 | 0.01 | 030 |
| **TOTAL** | **TOTAL** | 2527863 | 7852912 | 3.11 | 31.53 | 48.39 | 2.24 | 1.65 | 0.02 | 1.31 |

---

1. The
 definitions for Mineral Resources in Regulation S-K 1300 were followed for Mineral
 Resources.

2. Mineral
 Resources are estimated at a cut-off grade of 20% Fe.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;3. Mineral
 Resources are estimated using a long-term iron ore price of US$90 per dry metric tonne for
 the Platts/IODEX 62% Fe fines CFR China, and US$/BRL exchange rate of 5.25.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;4. Reasonable
 prospects for economic extraction were determined by benchmarking similar operations and
 developing a 20% Fe cut-off grade based on operating costs.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;5. The
 effective date is March 30, 2022

**Table 11.12-1: Resources of Rio Piracicaba Project**

The resources were classified as Indicated and Inferred according to the degree of reliability of the different rounds and data used for the interpolation of the block model.

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; **11.13 Uncertainty Factors**

*Uncertainty factors that may affect the indicated and inferred mineral resources estimates for the PR Project include:* 

 

● *Variance in the grade and continuity of mineralization from what was interpreted by drilling and estimation techniques; and* 

● *Density measurements.* 

*Mineral resources do not have demonstrated economic viability, but they have technical and economic constraints applied to them to establish reasonable prospects for economic extraction.* 

 

*The geological evidence supporting indicated mineral resources is derived from adequately detailed and reliable exploration, sampling, and testing, and is sufficient to reasonably assume geological and grade continuity. The indicated mineral resources are estimated with sufficient confidence to allow the application of technical, economic, marketing, legal, environmental, social and government factors to support mine planning and economic evaluation of the economic viability of the Project.* 

 

*The inferred mineral resources are estimated on the basis of limited geological evidence and sampling, but the information is sufficient to imply, but not verify geological grade and continuity.*

 

*The qualified person expects that the majority of the inferred mineral resources could be upgraded to indicated mineral resources with additional drilling.*

 

*The qualified person is of the opinion that all issues relating to all relevant technical and economic factors likely to influence the prospect of economic extraction under the base case scenario for the RP Project – selling unprocessed raw iron ore – have been sufficiently resolved with the information available at this time.*

12. Mineral Reserves Estimates

There are no Mineral Reserves at this time.

13. Mining Methods

It is assumed based on the depth of the deposit that open pit mining is most appropriate. A cut-off grade has been determined based on operating costs at neighboring mines.

The cut-off grade can be calculated by taking the operating costs and dividing them by the revenue. This is typically referred to as an external cut-off grade. The formula is:

External Cut-off = ((Mining + Process Costs) in US$/t product)/((Price US$/t product-transport costs))

Benchmarking other mines in the Iron Quadrangle, Standard & Poor Market Intelligence Data Base shows the following average costs:

---

| | |
|:---|:---|
| Mining | $3.69/dmt of concentrate |
| Processing | $5.13/dmt of concentrate |
| Rail | $1.72/dmt of concentrate |
| Port | $0.72/dmt of concentrate |
| Shipping | $12.98/dmt of concentrate |

---

Using a price of US$90 per dry metric tonne for the Platts/IODEX 62% Fe fines CFR China, and assuming an average Itabirite feed grade of 35% Fe to produce a 62% Fe concentrate, we can develop an upgrade factor to adjust the costs based on lower feed grades. For Rio Piracicaba, a 34.9% Fe Itabirite grade produced a 64.2% Fe product at an 83.4% recovery. Adjusting for feed grade, the upgrade factor is 64.2/34.9/0.834 = 2.2. Therefore, it takes 2.2 tonnes of feed to make 1 tonne of concentrate. Using this factor, operating costs are adjusted to:

---

| | |
|:---|:---|
| Mining | $8.12/t mined |
| Process | $11.29/t processed |
| Revenue | $90/dmt – 15.42/dmt transport costs = $74.58/dmt |

---

Based on operating costs of $19.41 and revenue of $74.58, the operating costs break even when the upgrade factor is 8.8. For a 62% product grade, and an 8.8 upgrade factor (8.8 tonnes of feed per tonne of concentrate), the cut-off grade is 62/8.8/0.834= 8.4% Fe. As the surrounding properties are larger producers, a cut-off grade of 20% Fe has been applied to the Mineral Resource to account for economies of scale and to demonstrate reasonable prospects for eventual economic extraction.

14. Process and Recovery Methods

As discussed in Section 10, metallurgical test work has shown a 64% Fe product can be produced from the Itabirite. Processing would include fine grinding to a P80 of 300 microns followed by MIMS and WHIMS magnetic circuits.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 137

15. Infrastructure

With the existing neighboring Minas Agua Limpa owned by Vale, all necessary infrastructure including rail is within close proximity.

16. Market Studies and Contracts

Iron ore is freely traded at prices that are widely known, so that prospects for the sale of any production are virtually assured. A long-term iron ore price of US$90 per dry metric tonne for the Platts/IODEX 62% Fe fines CFR China has been assumed based on a review of an iron ore forecast from Knoema. Knoema, shows data out to 2030, available in the link below:

<u>https://knoema.com/wxgcxde/commodity-price-forecasts-2020-2030-data-and-charts</u>.

Iron ore is the fundamental raw material in steelmaking, the world's largest metals industry. Global crude steel production of 1.88 billion tonnes in 2020 generated a demand for 2.34 billion tonnes of iron ore, and the two industries are inextricably linked. Regularly published market assessments by independent commercial price reporting agencies are provided on a subscription basis or available for public access from a wide range of sources. These groups include S&P Global Platts Metal (Platts), Fastmarkets (previously Metal Bulletin), Argus Media, and Shanghai Metals Market.

Most indices are estimated and published as prices denominated in US$/dmt basis CFR China.

17. Environmental Studies, Permitting, and Plants, Negotiations, or Agreements with Local Individuals or Groups

Geoline Engenharia Ltda. developed the work to prepare the Environmental Impact Assessment (EIA) and Environmental Impact Report (EIR) for Apollo, aiming to compose the Environmental Licensing process for the mining enterprise with the Secretaria de Estado de Meio Ambiente e Desenvolvimento Sustentável (SEMAD) of Minas Gerais, conducted by the Superintendência Regional de Meio Ambiente (SUPRAM) – Leste Mineiro.

The Environmental Regularization process for this project was carried out by the relevant Brazilian environmental legislation currently in force. In Minas Gerais State, environmental licensing duties are exercised by the competencies established in State Decree No. 47,042 of September 6, 2016, by the State Secretariat for the Environment and Sustainable Development (SEMAD, Brazilian acronym). The EIA/EIR for the Rio Piracicaba Project, was prepared in accordance with the guidelines established in current Brazilian environmental legislation, particularly CONAMA Resolution 01/1986.

Normative Deliberation (ND) Copam No. 217 of December 6, 2017, coming into force on March 6, 2018, has upgraded and rationalized the environmental licensing processes, maintaining the technical quality. According to this Minas Gerais state legislation there are three environmental licenses modalities, as well as described in the art. 8º:

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;▪ Three-phase Environmental Licensing – TEL: Licensing in which the Preliminary License – PL, the Installation License – IL, and the Operating License – OL of the undertaking is granted in successive stages;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;▪ Concomitant Environmental Licensing – CEL: Licensing in which the same stages provided for in the LAT will be analysed, although with the concomitant issuance of two, or more licenses;

&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;▪ Simplified Environmental Licensing – SEL: Licensing carried out in a single step, by registering information related to the activity or undertaking with the competent environmental agency, or by presenting the Simplified Environmental Report – SER, containing the description of the activity or undertaking and the respective environmental control measures.

Conducting mining operations in Brazil requires several environmental authorizations to ensure compliance with environmental regulations. The main environmental authorizations and licenses are the following:

· Environmental Impact Assessment ("EIA") and Environmental Impact Report ("EIR")
– required for major mining projects that may have significant environmental impacts. The EIA is a detailed study that assesses
the potential environmental impacts of the project. The RIMA is a summary of the findings to be presented to public consultation if it
was requested by specific persons authorized by Brazilian legislation

· Preliminary Environmental Report – for smaller projects with lower environmental impacts, such authorization
may be required instead of a full EIA/EIR. The Preliminary Environmental Report provides a more concise assessment of potential environmental
impacts.

· License for the Exploration Activity – this license is required for the initial reconnaissance and
exploration phase. It grants permission for sampling and basic surveys.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 138

· License for the Mining Activity – This license is necessary for mining phase and allows for the
extraction of minerals.

· Installation License ("IL") – the IL is required before any physical installation or
construction related to mining activities.

· Operation License ("OL") – the OL is necessary to authorize the full operation of the
mining project after it complies with all environmental requirements.

· Waste Management Plan – mining operations are required to have a plan for managing and disposing
of waste generated during the mining process.

· Water Use Permit – if water is used in the mining operation, a water use permit must be obtained
from the relevant water resources authority.

· Environmental Intervention Authorization – if the mining project involves clearing forests or vegetation,
this authorization is needed, and it should comply with the relevant environmental laws and regulations.

The main environmental studies of the Environmental Impact Assessment ("EIA") and Environmental Impact Report ("RIMA"), in addition to several other complementary studies, were completed for Rio Piracicaba Project for a requirement under the Concomitant Environmental Licensing - CEL1 process (PL+IL+OL). The documentation presents the environmental characterization not only of the project area but also its area of influence, as well as taking care to describe the activities and environmental aspects of the enterprise, carry out an environmental impact survey and its assessment, proposing some preservation measures.

The licensing process in Minas Gerais was developed in accordance with the criteria that must be addressed based on the size of a planned mine, and its likelihood of generating environmental impact. Apollo has applied for an environmental license for approval of mineral open-pit mining activities and waste pile, with the following parameters presented in Table 17-1:

**Table 17-1**. April 2022 Submitted Environmental License for Approval

---

| | | |
|:---|:---|:---|
| **Description** | **Parameter** | **Amount** |
| Mineral Treatment Unit - UTM, with dry treatment | installed capacity | 300.000t/year |
| Open pit mining - iron ore | gross production | 300.000t/year |
| Reject/waste pile – iron ore | useful area | 1 ha |
| Floating fuel stations | storage capacity | 15m³ |
| Road for transporting ore/waste outside | extension | 1,2km |

---

**Rio Piracicaba Project – Delimitation and Permissions** 

To prepare the EIA/EIR that was submitted at April 2022 for approval, studies were carried out in several areas according to the summary of the baseline studies completed is provided in Table 17-2.

**Table 17-2.** Completed Baseline Studies

---

| | |
|:---|:---|
| **Area** | **Description** |
| Land use | Agriculture, livestock farming, forestry and logging are the main land use activities |
| Flora | Semideciduous Seasonal Forest (SSF) in Initial Stage - Atlantic Forest Biome |
| Archaeology and cultural heritage | No archaeological sites, indigenous lands or quilombo communities were identified in the project´s area of influence |
| Special areas | No special areas were identified. The project site is not located within a conservation unit. |
| Fauna | The studies conducted included avifauna (birds), herpetofauna (reptiles and amphibians), terrestrial macrofauna (large and medium-sized mammals). A low number of endemic and specialist species were recorded in the field, demonstrating that the remaining natural areas have little capacity to support species that cannot withstand human-induced changes to their habitats. |
| Climate | Aw Climate- Tropical climate with dry winter, at least 1 semi-humid month and 1 to 5 dry months. |
| Water | in the Piracicaba River basin, which in turn belongs to the Doce River Basin unit, according to the division of state hydrographic basins into Water Resources Planning and Management Units (UPGRH) in the state of Minas Gerais |
| Solis | The types of soils found in the project area are the types of Dystrophic Red Yellow Latosols + Eutrophic Red Yellow Argisols + Cambisols, Dystrophic Haplics and Dystrophic Red Yellow Latosols + Eutrophic Red Yellow Argisols and Orthic Chromic Luvisols |
| Caves | No caves system were identified |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 139

**Environmental Intervention Authorization** 

The purpose of this authorization is to allow environmental intervention in an area of approximately 5,4 ha of removal of native vegetation and intervention in permanent preservation area. Current legislation (Federal Law 11.428/2006) provides for mining projects as a public service and therefore allows intervention in the form of clearing vegetation that is in an intermediate stage of regeneration and removal of protected species, provided that they are duly included in an inventory list and the proposed reforestation plan is legally executed. The environmental intervention authorization listed in Table 17-3 will therefore be applicable to the project.

**Table 17-3**. Environmental Intervention Authorization List

---

| | | |
|:---|:---|:---|
| **Situation** | **Description** | **Legislation** |
| Environmental | Ventures of significant environmental impact. | SNUC Law Nº 9.985/2000, dated 18 July 2000; DN COPAM N° 217 dated 06 December 2017. |
| <br> Suppression of<br> Vegetation | Mining ventures that depend on the removal of vegetation in the<br> advanced and medium stages of regeneration. | CONAMA N° 392, dated 25 July 2007, Law Nº 11.428,<br> dated 22 December 2006<br> IEF Ordinance Nº 30,<br> dated 03 February 2015. |
| Mining | Mining venture that depends on the removal of native<br> vegetation. | Law N° 20.922, dated 16 October 2013 IEF Ordinance Nº 27, dated 07 April 2017;<br> Law N° 47.479<br> dated 11 November 2019. |

---

**Water Use Authorization**

The water supply for the project comes from water collection permits from Certificate of Registration of Insignificant Use of Water Resources, No. 314522/2022, issued by - IGAM, for the collection of 1 L/s of public surface water, 24 hours a day.

**Final Considerations about the Permit**

These areas and activities were subject to environmental licensing in the form of Concurrent Environmental Licensing - LAC1, comprising the simultaneous obtaining of the Preliminary License (PL), Installation License (IL) and Operating License (OL) from the Eastern Minas Gerais Regional Environmental Regulation Unit - Technical Analysis Coordination of the State Environmental Foundation of the state of Minas Gerais (FEAM-MG) through Administrative Process SLA No. 25/2023 / SEI Process No. 1370.01.0011841/2022-78 / Opinion No. 44/FEAM/URA LM - CAT/2024, being concluded with the granting of the Environmental License, published in the Official Gazette of the state of Minas Gerais on May 14, 2024, valid for 10 (ten) years.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 140

Environmental, authorizations and operations licenses shown in Table 17-4 with the related to the area of the project in which Apollo already has permission to carry out the necessary installation interventions and begin the iron ore mining and processing operation.

**Table. 17-4**. Permissions Summary.

---

| | | |
|:---|:---|:---|
| **Rio Piracicaba Project** | **Rio Piracicaba Project** | **Rio Piracicaba Project** |
| **ENVIRONMENTAL LICENSE** | **No.** | **VALIDITY** |
| Concomitant Environmental License (CEL1) | 25/2023 | 05/14/2034 |
| Authorization for Environmental Intervention | 1370.01.0011841/2022-78 | 05/14/2034 |
| Certificate of Registration of Insignificant Use of Water Resources | 314522/2022 | 3 years renewable successively during the validity of the main license |

---

**Requirements, Plans for Waste, Tailings Disposal, Site Monitoring, Water Management**

The provisions for storage of tailings and other waste products and for the closure of mines are set forth in the Brazilin Mining Code, National Environmental Policy, Federal Constitution, mine closure legislation, specific regulations for tailings storage, ANM regulations and other applicable norms. Please see below some of the key provisions that need to be made:

· Environmental Impact Assessments – the environmental impact assessments include plans for waste
management, tailings storage, and mine closure.

· Waste Management Plans – waste management plans detailing types of waste, including tailings, overburden,
and other by-products, how they will by managed, stored and disposed.

· Tailings Storage Facilities – tailings storage facilities to store the waste materials produced
during the ore processing.

· Mine Closure Plan – mine closure plans that provides the steps and activities to be taken to safely
and responsibly close the mine once its operation is no longer economically viable or sustainable.

Furthermore, see below Table 17.5 of the Environmental Programs required for the environmental licensing of the Rio Piracicaba Project.

**Table 17.5** – Environmental Programs

---

| | |
|:---|:---|
| **Mitigation Measures** | **Description** |
| Erosive Process Control Program | Ensuring the maintenance of soil stability and minimizing the effects resulting from increased predisposition to exogenous processes and also aims at the stability of the future waste pile and its other structures. Contemplating the contribution to reducing the intensity of silting processes in downstream watercourses and ensuring the quality of water bodies. |
| Atmospheric Emissions Control Program (Gases and Dust) and Air Quality Monitoring | Present actions to be implemented with the premise of preventing, avoiding or minimizing atmospheric emissions resulting from the implementation and operation of the project. |
| Noise and Vibration Monitoring Program | Achieve the objectives of identifying areas of change in noise and vibration levels resulting from future activities of Apollo Mining; minimize environmental impacts arising from changes in acoustic and vibration levels; develop operational procedures aimed at reducing noise and vibration levels from generating sources |
| Water Quality Monitoring Program | Characterization and monitoring of the evolution of the water quality condition in the receiving bodies of the Project's area of influence and ensuring correct management of the treatment, control and disposal systems of affluents. |
| Solid and Oily Waste Management Program | Guide the correct segregation, packaging, storage, collection, transportation, treatment and final disposal of the waste produced, and thus contribute to reducing the generation of solid waste and oily effluents. |
| Traffic Signaling and Control Program | Present the activities and measures to be adopted to guarantee safety in relation to the circulation of light and heavy vehicles, people and equipment, aiming to implement informative safety measures and signage related to vehicle traffic, in areas affected by the project. |
| Local Workforce Training and Education Program | Attempt to meet the expectations of the local population, with regard to job creation, absorb and insert this workforce as much as possible into the job market. |
| Social Communication Program | Creation and maintenance of a permanently open communication channel with all parties interested in the implementation and operation of the project, aiming to work on environmental perception and awareness, listening to the demands of local society, seeking to meet the expectations and anxieties of society in general, through permanent, transparent and participatory dialogue. |
| Occupational Health and Safety Program (PGR/PCMSO) | Provide general information on occupational health and safety, with a view to promoting and protecting the health and safety of workers, consequently, preventing diseases, mainly occupational ones, through educational and preventive guidance on occupational health and safety. |
| Preventive Maintenance Program for Machinery and Equipment | Minimize environmental impacts resulting from combustion gas emissions, possible oil leaks and noise generation due to equipment wear. Reduce the risk of accidents to drivers/operators and other workers involved during the operation and until the closure of the project. |
| Forest Suppression Program | Monitor the trend (conservation or degradation) of the different forest fragments in the directly affected area by monitoring vegetation suppression activities, minimizing as much as possible the impacts on fauna and flora resulting from forestry intervention; Indication of the limitations and procedures for vegetation suppression and woody material management, as provided for; Protection of species at some level of extinction risk; Indication of operational techniques appropriate for the conservation of affected ecosystems; |
| Environmental Education Program | Contribute so that communities in the areas of influence of the project, through an integral, coordinated and participatory process, can acquire knowledge, skills, values and new attitudes in favor of a balanced environment and a better quality of life. |
| Fire Spot Control Program | Raising awareness among the population with the aim of raising awareness of the dangers posed by the handling of fire and risky behaviors; improving knowledge of the causes of fires and their motivations, with a view to facilitating the identification and accountability of the causative agent; strategic guidance of preventive actions and increasing the capacity for discussion and monitoring. |
| Wildlife Monitoring Program | Continuously assist in assessments of possible impacts resulting from the installation and operation of the project on fauna in the microregion to, whenever necessary, propose guidelines for maintaining faunal biodiversity. |
| Wildlife Repellent and Rescue Program | Regulate procedures related to the chase, rescue, translocation and release of vertebrate species from the Apollo Mining Project, contributing to the reduction of impacts generated by the implementation of the project. |

---

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 141

18. Capital and Operating Costs

This section is not relevant to this TRS.

19. Economic Analysis

This section is not relevant to this TRS.

20. Adjacent Properties

The Rio Piracicaba Project is located within the historic Iron Quadrangle, close to Morro Agudo and Água Limpa mines, both operated by Vale SA.

The authors have not independently verified that the mineralization at these surrounding mines is similar in characteristics to the Rio Piracicaba Project.

21. Other Relevant Data and Information

The authors are not aware of any data or information that has not been included in this TRS.

22. Interpretation and Conclusions

The works and results of this research presented refer to the mineral right 833.114/2012, exploration permit No. 12.891, published in the Official Gazette on 10/26/2015, extended on 03/23/2020 owned by Apollo. After completing the research work, on December 22, 2022, the Final Positive Research Report (FPRR) was filed and approved on May 23, 2023. Subsequently, on May 27, 2025, the Mining Concession nº 675 granted by the Ministry of Mines and Energy was published in the Federal Official Gazette.

It is an iron ore deposit, inserted in Fm. Cauê: the occurrence of iron is constituted by siliceous friable itabirite. semi-compact friable itabirite and colluvium/rolled with less expression. These iron formations cover practically all the twenty-five hectares of researched area, which is: 250,000 m². Even though they were not exposed at the surface, all drill holes intercepted them. The thickness of these potentially mineralized formations ranges from 16m to 20m, dipping at a low angle (<30°) to SE. Considering these thicknesses and density of 2.7g/cm³, the potential varies from 10 to 13 million tons of in situ material. The global contents range from 31 to 32% Fe, based on the global results of chemical analyzes presented in item 11 of this TRS.

Sample preparation, assaying and security are acceptable at this exploration stage.

No duplicates were applied in the QA/QC program of Apollo in the Rio Piracicaba Project, which makes the program incomplete, as the analysis precision (the ability to consistently reproduce a measurement in similar conditions) cannot be verified.

For exploration next phases, the QA/QC program must be improved, including field duplicates, coarse and pulp duplicates. Blanks must be inserted as coarse samples as the first sample of the lots. There must be a medium grade standard inserted in the QA/QC program. In the QP's opinion, the sample preparation, analysis, security procedures and database verification at Rio Piracicaba Project comply with industry standards and are adequate for use in the estimation of Mineral Resources.

Wet granulochemical tests and a preliminary concentration study were carried out in surface samples. Based on the results obtained, it is possible to demonstrate that friable itabirite presents characteristics that allow the application of magnetic separation as a concentration methodology.

The QP is of the opinion that the data derived from the metallurgical testing activities are adequate for the purposes of defining a Mineral Resource. The results from ROUTE C, encompassing pre-concentration, grinding to P80 of 300 microns followed by MIMS at 4000 Gauss and WHIMS at 11000 Gauss, was proved to be the best option, leading to a final concentrate grade of 64.2% Fe and iron recovery of 83.4% with silica and alumina concentrations below the penalty levels.

23. Recommendations

Out of a total of 188.31 hectares of the mineral right area, only 23.2 ha were explored and presented in this TRS. The remaining surface area belongs to Vale S.A. which at the time did not allow exploration activities in its property. Therefore. It is essential to Apollo to obtain the legal authorization required and extend the exploration work to this portion.

It is necessary to carry on with exploration works up to a minimum 100m x 100m drillholes grid spacing and to develop a more in-depth process route study for the types of itabirites: siliceous friable itabirite - IFS and semi-compact itabirite - ISC. seeking gravimetric, magnetic, and flotation concentration options.

A validation procedure is in progress for all the exploration work carried out so far. in order to guarantee compliance with the best technical practices in the industry. The validation includes checks on the quality of the topographic surveys. the execution of the drilling. drill core logging. sampling. and the practices in the contracted laboratory. In addition. the validity of using samples from wells and channels will be verified.

After this validation process, a geological model will be developed to support the continued exploration work.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 142

Estimated costs of the work program are shown in the table below.

---

| | |
|:---|:---|
| **Item** | **Cost (US$)** |
| Additional Diamond Drilling | 120000.00 |
| Additional Chemical Analysis and QA/QC | 15000.00 |
| Technical Services for Mineral Resource Estimation | 30000.00 |
| Other Direct and Indirect Costs | 10000.00 |
| **TOTAL** | **175000.00** |

---

**Table 23-1: Proposed Budget for Recommended Work**

24. References

Alkmim F.F. & Martins-Neto M.A. 2001. A bacia intracratônica do São Francisco: arcabouço estrutural e cenários evolutivos. In: C.P. Pinto & M.A. Martins-Neto (eds.). A Bacia do São Francisco geologia e recursos naturais. SBG, Belo Horizonte, p.: 9-30.

Alkmim F.F., Marshak S., Pedrosa-Soares A.C., Peres G.G., Cruz S., Whittington A. 2006. Kinematic evolution of the Araçuaí-West Congo orogen in Brazil and Africa: Nutcracker tectonics during the Neoproterozoic assembly of Gondwana. Precambrian Res., 149: 43-64.

ALMEIDA, L. G. et al. O Grupo Sabará no Sinclinal Dom Bosco, Quadrilátero Ferrífero: Uma revisão estratigráfica. **Revista Brasileira de Geociências**, Ouro Preto, v. 35, p. 177-186, jun. 2005.

Babinski, M., Gradim, R.J., Pedrosa-Soares, A.C., Alkmim, F.F., Noce, C.M. & Liu, D. 2005. Geocronologia U–Pb (SHRIMP) e Sm–Nd de xistos verdes basálticos do Orógeno Araçuaí: Implicações para a idade do Grupo Macaúbas. Revista Brasileira de Geociências, 35 (4-suplemento): 77-81.

Becker, EW, 2004. The nutricional of microalgae for aquaculture. In: Richmond, A. (Ed). Handbook of Microalgal Culture: Biotechnology and Applied Phycology, Blackwell Publishing Ltd: 380-291

BEUKES, Nicolas J.; KLEIN, Cornelis. Geochemistry and sedimentology of a facies transition — from microbanded to granular iron-formation — in the early Proterozoic Transvaal Supergroup, South Africa. Precambrian Research, [S.L.], v. 47, n. 1-2, p. 99-139, abr. 1990. Elsevier BV.

Brueckner H., Cunningham W.D., Alkmim F.F., Marshak S. 2000. Tectonic implications of Precambrian Sm-Nd dates from the southern São Francisco craton and adjacent Araçuaí and Ribeira belts, Brazil. Precambrian Research, 99(3-4):255-269.

Cabral A.R., Zeh A., Koglin N., Gomes Jr. A.A.S., Viana D.J., Lehmann D. 2012. Dating the Itabira iron formation, Quadrilátero Ferrífero of Minas Gerais, Brazil, at 2.65 Ga: Depositional U-Pb age of zircon from a metavolcanic layer. Precambrian Research, 204-205:40-45.

Canfield. D. E. (1998) A new model for Proterozoic Ocean chemistry. Nature 396, 450-453.

Cloud, P., 1965. Significance of the Gunflint (Precambrian) microflora. *Ciência*, **148**, 27-35.

Cloud, P., 1973. Significado paleoecológico da formação de ferro em faixas. *Economic Geology*, **68**, 1135-1143.

CUTTS, K. A.; LANA, C. de C. The complex tale of Mantiqueira and Juiz de Fora: a comment on "Eoarchean to Neoproterozoic crustal evolution of the Mantiqueira and the Juiz de Fora Complexes, SE Brazil: petrology, geochemistry, zircon U-Pb geochronology and Lu-Hf isotopes". Precambrian Research v. 332, p. 105305, set. 2019.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 143

DOPICO, C. I. M. et al. U–Pb ages and Hf-isotope data of detrital zircons from the late Neoarchean-Paleoproterozoic Minas Basin, SE Brazil. Precambrian Research, v. 291, p. 143-161, 2017.

FARINA, F. et al. The Archeane-Paleoproterozoic evolution of the Quadrilátero Ferrífero, Brasil: current models and open questions. Journal of South American Earth Sciences, v. 68, p. 4-21, 2016.

FARQUHAR, M. C.; EWING, G.; BOOTH, S. Using mixed methods to develop and evaluate complex interventions in palliative care research. Sage Journals, Cambridge, 1 ago. 2011.

Frei, R., Gaucher, C., Poulton, SW e Canfield, DE, 2009, Fluctuations in Precambrian atmospheric oxigenation registered by chrome isotopes: Nature, v. 461, no. 7261, pp. 250–253.

Gonçalves G.O., Lana C., Buick I.S., Alkmim F.F., Scholz R., Queiroga G. 2020. Twenty million years of post-orogenic fluid production and hydrothermal mineralization across the external Araçuaí orogen and adjacent São Francisco craton, SE Brazil. Lithos, 342-343:557-572.

Gross, G.A. 1983. Tectonic systems and the deposition of iron-formation. Precambrian Research, 20: 171-187.

Hagemann S.G., Angerer T., Duuring P., Rosière C.A., Figueiredo e Silva R.C., Lobato L., Hensler A.S., Walde D.H.G. 2015. BIF-hosted iron mineral system: A review. Ore Geology Reviews, 76:317-359. doi: 10.1016/j.oregeorev.2015.11.004.

Hartmann L.A., Endo I., Suita M.T.F., Santos J.O.S., Frantz J.C., Carneiro M.A., McNaughton N.J., Barley M.E. (prelo). Provenance and age delimitation of Quadrilátero Ferrífero sandstones based on zircon U-Pb isotopes. Jour. South Am. Earth Sci.

James, H. L., 1954, Sedimentary facies of iron formations: Econ. Geol., v. 49, p. 235-293 and Trendall, A. F., 1982, Banded iron formation: distribution in time and paleoenvironmental significance, in Holland, H. D., and Schidlowski, M., eds., Mineral Deposits and the Evolution of the Biosphere: New York, Springer-Verlag, p. 199-218.

Klein, C. & Beukes, N.J. 1993. Sedimentology and Geochemistry of the Glaciogenic Late Proterozoic Rapitan Iron-Formation in Canada. Economic Geology, 88:542-565.

Koglin N., Zeh A., Cabral A.R., Gomes Jr. A.A.S., Correa Neto A.V., Brunetto W.J., Galbiatti H. 2014. Depositional age and sediment source of the auriferous Moeda Formation, Quadrilátero Ferrífero of Minas Gerais Brazil: new constraints from U-Pb–Hf isotopes in zircon and xenotime. Precambrian Research, 255:96-108.

LADEIRA, Eduardo Antonio. Metallogenesis of Gold at the Morro Velho Mine and in the Nova Lima District, Quadrilátero Ferrífero, Minas Gerais, Brazil. 1980. 272 f. Thesis (PhD) - Department of Geology, University of Western Ontario, London, 1980.

LANA, C. et al. The ancestry and magmatic evolution of Archaean TTG rocks of the Quadrilátero Ferrífero province, southeast Brazil. Precambrian Research, v. 230, p. 1-30, 2013.

Lovely D. R., Stolz J. F., Nord G. L., and Phillips E. J. P. (1987) Anaerobic production of magnetite dissimilatory iron-reducing microorganism. Nature 330, 252-254.

MACHADO, N., NOCE, C. M., LADEIRA, E. A., BELO De OLIVEIRA, O. A. U-Pb geochronology of Archean magmatism and Proterozoic metamorphism in the Quadrilátero Ferrífero, southern Sao Francisco craton, Brazil. Geological Society of America Bulletin, v. 104, p. 1221-1227. 1992.

Machado N., Schrank A., Noce C.M., Galthier G. 1996. Ages of detrital zircon from Archean-Paleoproterozoic sequences: Implications for Greenstone Belt setting and evolution of a Transamazonian foreland basin in Quadrilátero Ferrífero, southeast Brazil. Earth Planet. Sci. Lett., 141:259-276.

Regulation S-K 1300 Technical Report Summary <br> Rio Piracicaba Project Page 144

MARSHAK, S. & ALKMIN, F.F. 1989. Proterozoic contraction/extension tectonics of the southern São Francisco region, Minas Gerais, Brazil. Tectonics, 8: 555-571.

Mendes M.C.O., Lobato L.M., Suckau V., Lana C. 2014. In situ LA-ICPMS U-Pb dating of detrital zircons from the Cercadinho Formation, Minas Supergroup. Geologia USP – Série Científica, 14(1):55-68.

MONTEIRO, Lena Virgínia Soares; XAVIER, Roberto Perez; SOUZA FILHO, Carlos Roberto de; MORETO, Carolina Penteado Natividade. Metalogênese da Província Carajás. In: Metalogênese das províncias tectônicas brasileiras [S.l: s.n.], p. 43-92, 2014.

NOCE, C. M., MACHADO, N., TEIXEIRA, W. UPb Geochronology of gneisses and granitoids in the Quadrilátero Ferrífero (Southern São Francisco Craton): age constraints for Archean and Paleoproterozoic magmatism and metamorphism. Revista Brasileira de Geociencias, v. 28, p. 95–102. 1998.

Noce C., Zuccheti M., Baltazar O., Armstrong R., Dantas E., Renger F., Lobato L. 2005. Age of felsic volcanism and the role of ancient continental crust in the evolution of the Neoarchean Rio das Velhas Greenstone belt (Quadrilátero Ferrífero, Brazil): U-Pb zircon dating of volcanoclastic graywackes. Precambrian Research, 141(1):67-82. http://dx.doi. org/10.1016/j.precamres.2005.08.002

PLANAVSKY, Noah; BEKKER, Andrey; ROUXEL, Olivier J.; KAMBER, Balz; HOFMANN, Axel; KNUDSEN, Andrew; LYONS, Timothy W. Rare Earth Element and yttrium compositions of Archean and Paleoproterozoic Fe formations revisited: new perspectives on the significance and mechanisms of deposition. Geochimica Et Cosmochimica Acta, [S.L.], v. 74, n. 22, p. 6387-6405, nov. 2010.

Ramanaidou, E. R. and Morris, R. C., Thornber, 2009. Genesis of lateritic iron ore from banded iron-formation in the Capanema mine (Minas Gerais, Brazil), Aust. J. Sci., 56, (4), 603–618.

RENGER, Friedrich E.; NOCE, Carlos Maurício; ROMANO, Antônio Wilson.; MACHADO, Nuno. Evolução sedimentar do Supergrupo Minas: 500 Ma de registro geológico no Quadrilátero Ferrífero, Minas Gerais, Brasil. Geonomos, Belo Horizonte, v. 2, n. 1, p. 1-11, 1994.

Romano R., Lana C., Alkmim F.F., Stevens G.S., Armstrong R. 2013. Stabilization of the southern portion of the São Francisco Craton, SE Brazil, through a long-lived period of potassic magmatism. Precambrian Research, 224:143-159.

ROSIÈRE, Carlos A.; CHEMALE JUNIOR, Farid. Itabiritos e minérios de ferro de alto teor do Quadrilátero Ferrífero – uma visão geral e discussão. Geonomos, [S.L.], p. 27-43, 1 dez. 2000. Geonomos.

Scott, PT; Pregelj, L.; Chen, N.; Hadler, JS; Djordjevic, MA; Gresshoff, PM, 2008. Um recurso inexplorado para a indústria de biocombustíveis do futuro. BioEnergy Res. (1 (1): 2-11

Schorscher H. D. 1978. Komatiitos na estrutura greenstone belt da Série Rio das Velhas, Quadrilátero Ferrífero, Minas Gerais, Brasil. In: CONGRESSO BRASILEIRO DE GEOLOGIA, 30. Recife, 1978. Anais .... Recife, SBG. 1, p.292-293.

SPIER, C.A.; VASCONCELOS, P.M. & OLIBEIRA, S.M.B. 40Ar/39Ar geochronological constraints on the evolution of lateritic iron deposits in the Quadrilátero Ferrífero, Minas Gerais, Brazil. Chem. Geol., 234:79-104, 2006.

Trendall, A.F. The significance of iron-formations in the Precambrian stratigraphic record. Spec. Publs int. Ass. Sediment., 33: 33-66.

Teixeira, FK, Sanchez, CG, Hurd, TR, Seifert, JR, Czech, B., Preall, JB, Hannon, GJ, Lehmann, R. (2015). A ATP sintase promove a diferenciação das células germinativas independente da fosforilação oxidativa.

WALKER, R. G. Facies Models: Second Edition. Geological Association of Canada, Canada, p. 1-318, jun. 1984.

Young, G.M. 1976. Iron-formation and glaciogenic rocks of the Rapitan Group, Northwest Territories, Canada. Precambrian Research, 3: 137-158.

25. Reliance on Information Provided by the Registrant

This section is not relevant to this TRS.

## Exhibit 99.1

**Exhibit 99.1**

**IMMATERIAL MINERAL RIGHTS** 

**OF ATLAS CRITICAL MINERALS CORP.**

---

| | |
|:---|:---|
|  | Page |
| [RARE EARTHS AND TITANIUM](#sk_001) | 2 |
| [GRAPHITE](#sk_002) | 27 |
| [URANIUM](#sk_003) | 28 |
| [COPPER](#sk_004) | 50 |
| [NICKEL](#sk_005) | 54 |
| [IRON](#sk_006) | 55 |
| [GOLD](#sk_007) | 72 |

---

**RARE EARTHS AND TITANIUM**

The following rare earth and titanium mineral rights are not deemed by management to be material as of June 30, 2025:

*<u>Mineral Right 831.451/2024</u>*

Current Status: Exploration Permit, valid until November 14, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_001.jpg)

Figure 1 – Map of Mineral Right 831.451/2024.

 

*<u>Mineral Right 831.350/2024</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

![](ex99-1_002.jpg)

Figure 2 – Map of Mineral Right 831.350/2024.

 

*<u>Mineral Right 831.074/2024</u>*

Current Status: Exploration Permit, valid until August 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_003.jpg)

Figure 3 – Map of Mineral Right 831.074/2024.

 

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| **RARE EARTHS AND TITANIUM** | GRAPHITE | URANIUM | COPPER | NICKEL | IRON | GOLD |

---

 

*<u>Mineral Right 831.073/2024</u>*

Current Status: Exploration Permit, valid until August 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 4 – Map of Mineral Right 831.073/2024.

 

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| **RARE EARTHS AND TITANIUM** | GRAPHITE | URANIUM | COPPER | NICKEL | IRON | GOLD |

---

*<u>Mineral Right 831.268/2021</u>*

Current Status: Exploration Permit, valid until December 12, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 5 – Map of Mineral Right 831.268/2021.

 ****

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| **RARE EARTHS AND TITANIUM** | GRAPHITE | URANIUM | COPPER | NICKEL | IRON | GOLD |

---

 ****

*<u>Mineral Right 831.279/2019</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

---

| | | | | | | |
|:---|:---|:---|:---|:---|:---|:---|
| **RARE EARTHS AND TITANIUM** | GRAPHITE | URANIUM | COPPER | NICKEL | IRON | GOLD |

---

Figure 6 – Map of Mineral Right 831.279/2019.

Figure 24- Alto Paranaíba Project mineral rights.

For purposes of geological exploration, these 22 mineral rights have been divided into three blocks: i) Block 1 – Carmo do Paranaíba; ii) Block 2 – Patos de Minas; and iii) Block 3 – Tiros.

![](ex99-1_008.jpg)

Figure 25- Alto Paranaíba Project mineral rights included in Block 1, Block 2, and Block 3.

 

*<u>Mineral Right 860.756/2023</u>*

Current Status: Exploration Permit, valid until October 17, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_009.jpg)

Figure 7 – Map of Mineral Right 860.756/2023.

 ****

 

*<u>Mineral Right 860.752/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 8 – Map of Mineral Right 860.752/2023.

 ****

 

*<u>Mineral Right 860.751/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_011.jpg)

Figure 9 – Map of Mineral Right 860.751/2023.

 ****

 

*<u>Mineral Right 860.750/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 10 – Map of Mineral Right 860.750/2023.

 

*<u>Mineral Right 860.749/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 11 – Map of Mineral Right 860.749/2023.

 

*<u>Mineral Right 860.748/2023</u>*

Current Status: Exploration Permit, valid until September 26, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_014.jpg)

Figure 12 – Map of Mineral Right 860.748/2023.

 

*<u>Mineral Right 860.747/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 13 – Map of Mineral Right 860.747/2023.

 ****

 

*<u>Mineral Right 860.746/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 14 – Map of Mineral Right 860.746/2023.

 

*<u>Mineral Right 860.745/2023)</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 15 – Map of Mineral Right 860.745/2023.

 ****

 

*<u>Mineral Right 860.744/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_018.jpg)

Figure 16 – Map of Mineral Right 860.744/2023.

 ****

 

*<u>Mineral Right 860.742/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_019.jpg)

 ****

Figure 17 – Map of Mineral Right 860.742/2023.

 ****

 

*<u>Mineral Right 860.741/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 18 – Map of Mineral Right 860.741/2023.

 ****

 

*<u>Mineral Right 860.740/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 19 – Map of Mineral Right 860.740/2023.

 ****

 

*<u>Mineral Right 860.739/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 20 – Map of Mineral Right 860.739/2023.

 

*<u>Mineral Right 860.738/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 21 – Map of Mineral Right 860.738/2023.

 

*<u>Mineral Right 860.737/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 22 – Map of Mineral Right 860.737/2023.

 

*<u>Mineral Right 860.736/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 23 – Map of Mineral Right 860.736/2023.

*<u>Mineral Right 860.735/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 24 – Map of Mineral Right 860.735/2023.

**GRAPHITE**

The following graphite mineral rights are not deemed by management to be material as of June 30, 2025:

*<u>Mineral Right 830.073/2022</u>*

Current Status: Exploration Permit, valid until August 30, 2025. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after this date.

![](ex99-1_027.jpg)

Figure 63 – Map of Mineral Right 830.073/2022.

**URANIUM**

The following uranium mineral rights are not deemed by management to be material as of June 30, 2025:

*<u>Mineral Right 864.038/2025</u>*

Current Status: Exploration Permit, valid until April 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after this date.

 ****

Figure 25 – Map of Mineral Right 864.038/2025.

 

*<u>Mineral Right 864.037/2025</u>*

Current Status: Exploration Permit, valid until April 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

 ****

![](ex99-1_029.jpg)

 ****

Figure 26 – Map of Mineral Right 864.037/2025.

 ****

 

*<u>Mineral Right 864.036/2025</u>*

Current Status: Exploration Permit, valid until April 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_030.jpg)

Figure 27 – Map of Mineral Right 864.036/2025.

 

*<u>Mineral Right 864.035/2025</u>*

Current Status: Exploration Permit, valid until April 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 28 – Map of Mineral Right 864.035/2025.

 

*<u>Mineral Right 864.034/2025</u>*

Current Status: Exploration Permit, valid until April 8, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 29 – Map of Mineral Right 864.034/2025.

 

*<u>Mineral Right 864.033/2025</u>*

Current Status: Exploration Permit, valid until May 12, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 30 – Map of Mineral Right 864.033/2025.

 

*<u>Mineral Right 864.032/2025</u>*

Current Status: Exploration Permit, valid until May 12, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 31 – Map of Mineral Right 864.032/2025.

 

*<u>Mineral Right 860.161/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 32 – Map of Mineral Right 860.161/2025.

 

*<u>Mineral Right 860.160/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 33 – Map of Mineral Right 860.160/2025.

 

*<u>Mineral Right 860.150/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 34 – Map of Mineral Right 860.150/2025.

 

*<u>Mineral Right 860.149/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 35 – Map of Mineral Right 860.149/2025.

 

*<u>Mineral Right 860.148/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 36 – Map of Mineral Right 860.148/2025.

 

*<u>Mineral Right 860.144/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 37 – Map of Mineral Right 860.144/2025.

 

*<u>Mineral Right 860.133/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 38 – Map of Mineral Right 860.133/2025.

 

*<u>Mineral Right 860.131/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 39 – Map of Mineral Right 860.131/2025.

 ****

 

*<u>Mineral Right 850.087/2025</u>*

Current Status: Exploration Permit, valid until March 27, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 40 – Map of Mineral Right 850.087/2025.

 

*<u>Mineral Right 850.077/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 41 – Map of Mineral Right 850.077/2025.

 

*<u>Mineral Right 860.471/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 42 – Map of Mineral Right 860.471/2025.

 

*<u>Mineral Right 860.470/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 43 – Map of Mineral Right 860.470/2025.

 

*<u>Mineral Right 860.467/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 44 – Map of Mineral Right 860.467/2025.

 

*<u>Mineral Right 860.466/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 45 – Map of Mineral Right 860.466/2025.

 

*<u>Mineral Right 860.464/2025</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 46 – Map of Mineral Right 860.464/2025.

 ****

**COPPER**

The following copper ore rights are not deemed by management to be material as of June 30, 2025:

*<u>Mineral Right 860.730/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 47 – Map of Mineral Right 860.730/2023.

 ****

 

*<u>Mineral Right 860.729/2023</u>*

Current Status: Exploration Permit, valid until April 24, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 48 – Map of Mineral Right 860.729/2023.

 ****

 ****

 

*<u>Mineral Right 860.728/2023</u>*

Current Status: Exploration Permit, valid until October 11, 2026. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 49 – Map of Mineral Right 860.728/2023.

 ****

 

*<u>Mineral Right 860.727/2023</u>*

Current Status: Exploration Permit, valid until February 8, 2027. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 50 – Map of Mineral Right 860.727/2023.

**NICKEL**

The following nickel ore rights are not deemed by management to be material as of June 30, 2025:

 ****

*<u>Mineral Right 803.031/2021</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 51 – Map of Mineral Right 803.031/2021.

**IRON**

The following iron ore rights are not deemed by management to be material as of June 30, 2025:

*<u>Mineral Right 831.616/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 52 – Map of Mineral Right 831.616/2019.

 

*<u>Mineral Right 860.627/2019</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 53 – Map of Mineral Right 860.627/2021.

 

*<u>Mineral Right 860.632/2021</u>*

Current Status: Exploration Permit, valid until April 7, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 54 – Map of Mineral Right 860.632/2021.

 ****

 

*<u>Mineral Right 860.633/2021</u>*

Current Status: Exploration Permit, valid until April 7, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

 ****

Figure 55 – Map of Mineral Right 860.633/2021.

 ****

 

*<u>Mineral Right 860.634/2021</u>*

Current Status: Exploration Permit, valid until April 7, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 56 – Map of Mineral Right 860.634/2021.

 

*<u>Mineral Right 860.635/2021</u>*

Current Status: Exploration Permit, valid until April 7, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 57 – Map of Mineral Right 860.635/2021.

 

*<u>Mineral Right 860.636/2021</u>*

Current Status: Exploration Permit, valid until April 7, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 58 – Map of Mineral Right 860.636/2021.

 

*<u>Mineral Right 860.638/2021</u>*

Current Status: Exploration Permit, valid until April 7, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 59 – Map of Mineral Right 860.638/2021.

 

*<u>Mineral Right 831.343/2021</u>*

Current Status: Exploration Permit, valid until February 12, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 60 – Map of Mineral Right 831.343/2021.

 

*<u>Mineral Right 868.008/2021</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 61 – Map of Mineral Right 868.008/2021.

 ****

 

*<u>Mineral Right 844.009/2021</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 62 – Map of Mineral Right 844.009/2021.

 

*<u>Mineral Right 844.010/2021</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 63 – Map of Mineral Right 844.010/2021.

 ****

 

*<u>Mineral Right 844.026/2020</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

![](ex99-1_067.jpg)

Figure 64 – Map of Mineral Right 844.026/2020.

 

*<u>Mineral Right 844.027/2020</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 65 – Map of Mineral Right 844.027/2020.

 ****

 

*<u>Mineral Right 844.028/2020</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 66 – Map of Mineral Right 844.028/2020.

 

*<u>Mineral Right 844.029/2020</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 67 – Map of Mineral Right 844.029/2020.

 ****

 

*<u>Mineral Right 844.030/2020</u>*

Current Status: Exploration Permit, valid until February 3, 2028. We plan to prepare and file the necessary studies with ANM to continue to maintain ownership of this mineral right after the termination date.

Figure 68 – Map of Mineral Right 844.030/2020.

**GOLD**

The following gold ore rights are not deemed by management to be material as of June 30, 2025:

*<u>Mineral Right 831.140/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 69 – Map of Mineral Right 831.140/2019.

 

*<u>Mineral Right 831.141/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 70 – Map of Mineral Right 831.141/2019.

 

*<u>Mineral Right 831.142/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 71 – Map of Mineral Right 831.142/2019.

 

 

*<u>Mineral Right 831.143/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 72 – Map of Mineral Right 831.143/2019.

 

*<u>Mineral Right 831.144/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 73 – Map of Mineral Right 831.144/2019.

 

 

*<u>Mineral Right 831.145/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 74 – Map of Mineral Right 831.145/2019.

 

 

*<u>Mineral Right 831.146/2019</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 75 – Map of Mineral Right 831.146/2019.

 

 

*<u>Mineral Right 830.066/2021</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 76 – Map of Mineral Right 830.066/2021.

 

 

*<u>Mineral Right 880.133/2016</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 77 – Map of Mineral Right 880.133/2016.

 

 

*<u>Mineral Right 880.134/2016</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 78 – Map of Mineral Right 880.134/2016.

 

*<u>Mineral Right 880.135/2016</u>*

Current Status: Our application for Exploration Permit has been submitted to ANM and we await completion of its review.

Figure 79 – Map of Mineral Right 880.135/2016.

 

*<u>Mineral Right 831.883/2016</u>*

Current Status: Exploration Permit, with a partial research report filed by us with ANM and under current review.

Figure 80 – Map of Mineral Right 831.883/2016.