Datasets:

lionelchg

/

dolly_closed_qa

like 2

What did Stryk study at the Technical University of Munich?

From 1984 to 1989 Stryk studied mathematics and computer science at the Technical University of Munich. In 1994 he received his doctorate in mathematics and then habilitated at the university. He was then postdoctoral researcher at TU Munich. Since 2000 he is professor of simulation, system optimization and robotics at the department of computer science of the Technische Universität Darmstadt. From April 2011 to March 2013 he was dean of the department. He was visiting professor and lecturer at the University of California, San Diego, and the Universidade Estadual de Campinas, Brazil. Stryk is vice president of Robocup. Since 2018 he has been building the German Rescue Robotics Centre.

Stryk studied mathematics and computer science at the Technical University of Munich.

closed_qa

### Instruction: What did Stryk study at the Technical University of Munich? ### Context: From 1984 to 1989 Stryk studied mathematics and computer science at the Technical University of Munich. In 1994 he received his doctorate in mathematics and then habilitated at the university. He was then postdoctoral researcher at TU Munich. Since 2000 he is professor of simulation, system optimization and robotics at the department of computer science of the Technische Universität Darmstadt. From April 2011 to March 2013 he was dean of the department. He was visiting professor and lecturer at the University of California, San Diego, and the Universidade Estadual de Campinas, Brazil. Stryk is vice president of Robocup. Since 2018 he has been building the German Rescue Robotics Centre. ### Answer: Stryk studied mathematics and computer science at the Technical University of Munich.</s>

Given a reference text about Larissa Ilinichna Volpert, tell me what game she played, when she was champion, and what titles she earned.

Larissa Ilinichna Volpert (Russian: Лариса Ильинична Вольперт; 30 March 1926 – 1 October 2017) was a Soviet chess Woman Grandmaster and Russian and Estonian philologist. She was a three time Soviet women's chess champion (1954, 1958, and 1959). Life Born in Leningrad, she learned chess from her older brother and received chess instruction at the Leningrad Pioneers Palace. In 1947, she tied for first at the Leningrad Women's Championship. She played her first USSR Women's Championship in 1949 and finished equal fifth. In 1954, she won her first USSR Women's Championship. She scored 2–0 against Nina Hrušková-Bělská in the 1954 USSR v. Czechoslovakia match. In 1958 she shared the USSR Women's Championship title, and in 1959 she won for the third time, her second outright victory. Volpert earned the Woman International Master title in 1954 and the Woman Grandmaster title in 1978. She had a degree in philology from Leningrad University and since 1977 taught Russian philology at the University of Tartu, Estonia. Her major works are about Pushkin's and Lermontov's poetry, especially in their connections to French literature. She died at the age of 91 on 1 October 2017.[3

Larissa Ilinichna Volpert played chess and was the Soviet women's chess champion in 1954, 1958 and 1959. She earned the titles of Woman International Master and Woman Grandmaster for her accomplishments in the game of chess.

closed_qa

### Instruction: Given a reference text about Larissa Ilinichna Volpert, tell me what game she played, when she was champion, and what titles she earned. ### Context: Larissa Ilinichna Volpert (Russian: Лариса Ильинична Вольперт; 30 March 1926 – 1 October 2017) was a Soviet chess Woman Grandmaster and Russian and Estonian philologist. She was a three time Soviet women's chess champion (1954, 1958, and 1959). Life Born in Leningrad, she learned chess from her older brother and received chess instruction at the Leningrad Pioneers Palace. In 1947, she tied for first at the Leningrad Women's Championship. She played her first USSR Women's Championship in 1949 and finished equal fifth. In 1954, she won her first USSR Women's Championship. She scored 2–0 against Nina Hrušková-Bělská in the 1954 USSR v. Czechoslovakia match. In 1958 she shared the USSR Women's Championship title, and in 1959 she won for the third time, her second outright victory. Volpert earned the Woman International Master title in 1954 and the Woman Grandmaster title in 1978. She had a degree in philology from Leningrad University and since 1977 taught Russian philology at the University of Tartu, Estonia. Her major works are about Pushkin's and Lermontov's poetry, especially in their connections to French literature. She died at the age of 91 on 1 October 2017.[3 ### Answer: Larissa Ilinichna Volpert played chess and was the Soviet women's chess champion in 1954, 1958 and 1959. She earned the titles of Woman International Master and Woman Grandmaster for her accomplishments in the game of chess.</s>

Given a reference text about Tiger Woods, tell me when they were born, what their real first name is, and what profession his niece has.

Woods was born on December 30, 1975, in Cypress, California, to Earl and Kultida "Tida" Woods. He is their only child, though he has two half-brothers and a half-sister from his father's first marriage. Earl was a retired U.S. Army officer and Vietnam War veteran; he was born to African-American parents and was also said to have had European, Native American, and possibly Chinese ancestry. Kultida (née Punsawad) is originally from Thailand, where Earl met her when he was on a tour of duty there in 1968. She is of mixed Thai, Chinese, and Dutch ancestry. In 2002, ESPN claimed: "For the record, he is one-quarter Thai, one-quarter Chinese, one-quarter Caucasian, one-eighth African American and one-eighth Native American." Tiger has described his ethnic make-up as "Cablinasian" (a syllabic abbreviation he coined from Caucasian, Black, American Indian, and Asian). Woods's first name, Eldrick, was chosen by his mother because it began with "E" (for Earl) and ended with "K" (for Kultida). His middle name Tont is a traditional Thai name. He was nicknamed Tiger in honor of his father's friend, South Vietnamese Colonel Vuong Dang Phong, who had also been known as Tiger. Woods has a niece, Cheyenne Woods, who played for the Wake Forest University golf team and turned professional in 2012 when she made her pro debut in the LPGA Championship.[

Tiger Woods was borh on December 30, 1975. His real first name is "Eldrick". His niece, Cheyenne Woods, is a professional golfer.

closed_qa

### Instruction: Given a reference text about Tiger Woods, tell me when they were born, what their real first name is, and what profession his niece has. ### Context: Woods was born on December 30, 1975, in Cypress, California, to Earl and Kultida "Tida" Woods. He is their only child, though he has two half-brothers and a half-sister from his father's first marriage. Earl was a retired U.S. Army officer and Vietnam War veteran; he was born to African-American parents and was also said to have had European, Native American, and possibly Chinese ancestry. Kultida (née Punsawad) is originally from Thailand, where Earl met her when he was on a tour of duty there in 1968. She is of mixed Thai, Chinese, and Dutch ancestry. In 2002, ESPN claimed: "For the record, he is one-quarter Thai, one-quarter Chinese, one-quarter Caucasian, one-eighth African American and one-eighth Native American." Tiger has described his ethnic make-up as "Cablinasian" (a syllabic abbreviation he coined from Caucasian, Black, American Indian, and Asian). Woods's first name, Eldrick, was chosen by his mother because it began with "E" (for Earl) and ended with "K" (for Kultida). His middle name Tont is a traditional Thai name. He was nicknamed Tiger in honor of his father's friend, South Vietnamese Colonel Vuong Dang Phong, who had also been known as Tiger. Woods has a niece, Cheyenne Woods, who played for the Wake Forest University golf team and turned professional in 2012 when she made her pro debut in the LPGA Championship.[ ### Answer: Tiger Woods was borh on December 30, 1975. His real first name is "Eldrick". His niece, Cheyenne Woods, is a professional golfer.</s>

What genus are beavers a part of?

Beavers (genus Castor) are large, semiaquatic rodents of the Northern Hemisphere. There are two existing species: the North American beaver (Castor canadensis) and the Eurasian beaver (C. fiber). Beavers are the second-largest living rodents, after capybaras, weighing up to 30 kilograms (66 lb). Beavers have stout bodies with large heads, long chisel-like incisors, brown or gray fur, hand-like front feet, webbed back feet, and tails that are flat and scaly. The two species differ in skull and tail shape and fur color. Beavers can be found in a number of freshwater habitats, such as rivers, streams, lakes and ponds. They are herbivorous, consuming tree bark, aquatic plants, grasses and sedges.

Castor genus

closed_qa

### Instruction: What genus are beavers a part of? ### Context: Beavers (genus Castor) are large, semiaquatic rodents of the Northern Hemisphere. There are two existing species: the North American beaver (Castor canadensis) and the Eurasian beaver (C. fiber). Beavers are the second-largest living rodents, after capybaras, weighing up to 30 kilograms (66 lb). Beavers have stout bodies with large heads, long chisel-like incisors, brown or gray fur, hand-like front feet, webbed back feet, and tails that are flat and scaly. The two species differ in skull and tail shape and fur color. Beavers can be found in a number of freshwater habitats, such as rivers, streams, lakes and ponds. They are herbivorous, consuming tree bark, aquatic plants, grasses and sedges. ### Answer: Castor genus</s>

Given this paragraph about the dimensions of a volleyball court, is there a difference between the hight of the net for men's competitions vs women's competitions?

A volleyball court is 9 m × 18 m (29.5 ft × 59.1 ft), divided into equal square halves by a net with a width of one meter (39.4 in). The top of the net is 2.43 m (7 ft 11+11⁄16 in) above the centre of the court for men's competition, and 2.24 m (7 ft 4+3⁄16 in) for women's competition, varied for veterans and junior competitions.

The net is 19 cm higher for men's competitions (243 cm) than for women's competitions (224 cm).

closed_qa

### Instruction: Given this paragraph about the dimensions of a volleyball court, is there a difference between the hight of the net for men's competitions vs women's competitions? ### Context: A volleyball court is 9 m × 18 m (29.5 ft × 59.1 ft), divided into equal square halves by a net with a width of one meter (39.4 in). The top of the net is 2.43 m (7 ft 11+11⁄16 in) above the centre of the court for men's competition, and 2.24 m (7 ft 4+3⁄16 in) for women's competition, varied for veterans and junior competitions. ### Answer: The net is 19 cm higher for men's competitions (243 cm) than for women's competitions (224 cm).</s>

What is the origin of man?

Humans (Homo sapiens) are the most common and widespread species of primate in the great ape family Hominidae, and also the most common species of primate overall. Humans are broadly characterized by their bipedalism and high intelligence. Humans' large brain and resulting cognitive skills have allowed them to thrive in a variety of environments and develop complex societies and civilizations. Humans are highly social and tend to live in complex social structures composed of many cooperating and competing groups, from families and kinship networks to political states. As such, social interactions between humans have established a wide variety of values, social norms, languages, and rituals, each of which bolsters human society. The desire to understand and influence phenomena has motivated humanity's development of science, technology, philosophy, mythology, religion, and other conceptual frameworks. Although some scientists equate the term "humans" with all members of the genus Homo, in common usage it generally refers to Homo sapiens, the only extant member. Anatomically modern humans emerged around 300,000 years ago in Africa, evolving from Homo heidelbergensis or a similar species and migrating out of Africa, gradually replacing or interbreeding with local populations of archaic humans. For most of history, humans were nomadic hunter-gatherers. Humans began exhibiting behavioral modernity about 160,000–60,000 years ago. The Neolithic Revolution, which began in Southwest Asia around 13,000 years ago (and separately in a few other places), saw the emergence of agriculture and permanent human settlement. As populations became larger and denser, forms of governance developed within and between communities, and a number of civilizations have risen and fallen. Humans have continued to expand, with a global population of over 8 billion as of 2022. Genes and the environment influence human biological variation in visible characteristics, physiology, disease susceptibility, mental abilities, body size, and life span. Though humans vary in many traits (such as genetic predispositions and physical features), any two humans are at least 99% genetically similar. Humans are sexually dimorphic: generally, males have greater body strength and females have a higher body fat percentage. At puberty, humans develop secondary sexual characteristics. Females are capable of pregnancy, usually between puberty, at around 12 years old, and menopause, around the age of 50. Humans are omnivorous, capable of consuming a wide variety of plant and animal material, and have used fire and other forms of heat to prepare and cook food since the time of Homo erectus. Humans can survive for up to eight weeks without food and three or four days without water. Humans are generally diurnal, sleeping on average seven to nine hours per day. Childbirth is dangerous, with a high risk of complications and death. Often, both the mother and the father provide care for their children, who are helpless at birth. Humans have a large, highly developed, and complex prefrontal cortex, the region of the brain associated with higher cognition. Humans are highly intelligent, capable of episodic memory, have flexible facial expressions, self-awareness, and a theory of mind. The human mind is capable of introspection, private thought, imagination, volition, and forming views on existence. This has allowed great technological advancements and complex tool development to be possible through complex reasoning and the transmission of knowledge to subsequent generations. Language, art, and trade are defining characteristics of humans. Long-distance trade routes might have led to cultural explosions and resource distribution that gave humans an advantage over other similar species.

Homo sapiens Anatomically modern humans emerged around 300,000 years ago in Africa, evolving from Homo heidelbergensis or a similar species and migrating out of Africa, gradually replacing or interbreeding with local populations of archaic humans. For most of history, humans were nomadic hunter-gatherers.

closed_qa

### Instruction: What is the origin of man? ### Context: Humans (Homo sapiens) are the most common and widespread species of primate in the great ape family Hominidae, and also the most common species of primate overall. Humans are broadly characterized by their bipedalism and high intelligence. Humans' large brain and resulting cognitive skills have allowed them to thrive in a variety of environments and develop complex societies and civilizations. Humans are highly social and tend to live in complex social structures composed of many cooperating and competing groups, from families and kinship networks to political states. As such, social interactions between humans have established a wide variety of values, social norms, languages, and rituals, each of which bolsters human society. The desire to understand and influence phenomena has motivated humanity's development of science, technology, philosophy, mythology, religion, and other conceptual frameworks. Although some scientists equate the term "humans" with all members of the genus Homo, in common usage it generally refers to Homo sapiens, the only extant member. Anatomically modern humans emerged around 300,000 years ago in Africa, evolving from Homo heidelbergensis or a similar species and migrating out of Africa, gradually replacing or interbreeding with local populations of archaic humans. For most of history, humans were nomadic hunter-gatherers. Humans began exhibiting behavioral modernity about 160,000–60,000 years ago. The Neolithic Revolution, which began in Southwest Asia around 13,000 years ago (and separately in a few other places), saw the emergence of agriculture and permanent human settlement. As populations became larger and denser, forms of governance developed within and between communities, and a number of civilizations have risen and fallen. Humans have continued to expand, with a global population of over 8 billion as of 2022. Genes and the environment influence human biological variation in visible characteristics, physiology, disease susceptibility, mental abilities, body size, and life span. Though humans vary in many traits (such as genetic predispositions and physical features), any two humans are at least 99% genetically similar. Humans are sexually dimorphic: generally, males have greater body strength and females have a higher body fat percentage. At puberty, humans develop secondary sexual characteristics. Females are capable of pregnancy, usually between puberty, at around 12 years old, and menopause, around the age of 50. Humans are omnivorous, capable of consuming a wide variety of plant and animal material, and have used fire and other forms of heat to prepare and cook food since the time of Homo erectus. Humans can survive for up to eight weeks without food and three or four days without water. Humans are generally diurnal, sleeping on average seven to nine hours per day. Childbirth is dangerous, with a high risk of complications and death. Often, both the mother and the father provide care for their children, who are helpless at birth. Humans have a large, highly developed, and complex prefrontal cortex, the region of the brain associated with higher cognition. Humans are highly intelligent, capable of episodic memory, have flexible facial expressions, self-awareness, and a theory of mind. The human mind is capable of introspection, private thought, imagination, volition, and forming views on existence. This has allowed great technological advancements and complex tool development to be possible through complex reasoning and the transmission of knowledge to subsequent generations. Language, art, and trade are defining characteristics of humans. Long-distance trade routes might have led to cultural explosions and resource distribution that gave humans an advantage over other similar species. ### Answer: Homo sapiens Anatomically modern humans emerged around 300,000 years ago in Africa, evolving from Homo heidelbergensis or a similar species and migrating out of Africa, gradually replacing or interbreeding with local populations of archaic humans. For most of history, humans were nomadic hunter-gatherers.</s>

Given a reference text about the Build Back Better Plan, what are the 3 parts that make up the plan?

The Build Back Better Plan or Build Back Better agenda was a legislative framework proposed by U.S. president Joe Biden between 2020 and 2021. Generally viewed as ambitious in size and scope, it sought the largest nationwide public investment in social, infrastructural, and environmental programs since the 1930s Great Depression-era policies of the New Deal. The Build Back Better plan was divided into three parts: American Rescue Plan (ARP), a COVID-19 pandemic-relief bill; American Jobs Plan (AJP), a proposal to address long-neglected infrastructure needs and reduce America's contributions to destructive effects of climate change; and American Families Plan (AFP), a proposal to fund a variety of social policy initiatives, some of which (e.g., paid family leave) had never before been enacted nationally in the U.S. The first part was passed as the $1.9 trillion American Rescue Plan Act of 2021, and was signed into law in March 2021. The other two parts were reworked into different bills over the course of extensive negotiations. Aspects of the AJP's infrastructure goals were diverted into the Infrastructure Investment and Jobs Act, which was signed into law in November 2021. Other AJP priorities (e.g., climate change remediation, home health care reform, etc.) were then merged with the AFP to form the Build Back Better Act. The bill passed the Democratic-controlled House of Representatives but struggled to gain the support of Democrats Joe Manchin of West Virginia and Kyrsten Sinema of Arizona in the evenly divided Senate, with unified Republican opposition. Manchin and Sinema negotiated the reduction of Build Back Better Act's size, scope, and cost significantly with Biden and Democratic congressional leaders, but Manchin, widely viewed as the key swing vote needed to pass the bill in the Senate, ultimately rejected it over the procedural tactics used. Continued negotiations between Manchin and Senate Majority Leader Chuck Schumer eventually resulted in the Inflation Reduction Act of 2022, which was signed into law in August 2022, and incorporated some of the Build Back Better Act's climate change, healthcare, and tax reform proposals while excluding its social safety net proposals.

The three components of the Build Back Better plan are: - American Rescue Plan - American Jobs Plan - American Families Plan

closed_qa

### Instruction: Given a reference text about the Build Back Better Plan, what are the 3 parts that make up the plan? ### Context: The Build Back Better Plan or Build Back Better agenda was a legislative framework proposed by U.S. president Joe Biden between 2020 and 2021. Generally viewed as ambitious in size and scope, it sought the largest nationwide public investment in social, infrastructural, and environmental programs since the 1930s Great Depression-era policies of the New Deal. The Build Back Better plan was divided into three parts: American Rescue Plan (ARP), a COVID-19 pandemic-relief bill; American Jobs Plan (AJP), a proposal to address long-neglected infrastructure needs and reduce America's contributions to destructive effects of climate change; and American Families Plan (AFP), a proposal to fund a variety of social policy initiatives, some of which (e.g., paid family leave) had never before been enacted nationally in the U.S. The first part was passed as the $1.9 trillion American Rescue Plan Act of 2021, and was signed into law in March 2021. The other two parts were reworked into different bills over the course of extensive negotiations. Aspects of the AJP's infrastructure goals were diverted into the Infrastructure Investment and Jobs Act, which was signed into law in November 2021. Other AJP priorities (e.g., climate change remediation, home health care reform, etc.) were then merged with the AFP to form the Build Back Better Act. The bill passed the Democratic-controlled House of Representatives but struggled to gain the support of Democrats Joe Manchin of West Virginia and Kyrsten Sinema of Arizona in the evenly divided Senate, with unified Republican opposition. Manchin and Sinema negotiated the reduction of Build Back Better Act's size, scope, and cost significantly with Biden and Democratic congressional leaders, but Manchin, widely viewed as the key swing vote needed to pass the bill in the Senate, ultimately rejected it over the procedural tactics used. Continued negotiations between Manchin and Senate Majority Leader Chuck Schumer eventually resulted in the Inflation Reduction Act of 2022, which was signed into law in August 2022, and incorporated some of the Build Back Better Act's climate change, healthcare, and tax reform proposals while excluding its social safety net proposals. ### Answer: The three components of the Build Back Better plan are: - American Rescue Plan - American Jobs Plan - American Families Plan</s>

Given this paragraph about grunge guitarists, what types of amplifiers would typically be preferred?

Grunge is generally characterized by a sludgy electric guitar sound with a thick middle register and rolled-off treble tone and a high level of distortion and fuzz, typically created with small 1970s-style stompbox pedals, with some guitarists chaining several fuzz pedals together and plugging them into a tube amplifier and speaker cabinet.Grunge guitarists use very loud Marshall guitar amplifiers and some used powerful Mesa-Boogie amplifiers, including Kurt Cobain and Dave Grohl (the latter in early, grunge-oriented Foo Fighters songs). Grunge has been called the rock genre with the most "lugubrious sound"; the use of heavy distortion and loud amps has been compared to a massive "buildup of sonic fog" or even dismissed as "noise" by one critic.As with metal and punk, a key part of grunge's sound is very distorted power chords played on the electric guitar.

Some grunge guitarists use loud Marshall or Mesa-Boogie amplifiers.

closed_qa

### Instruction: Given this paragraph about grunge guitarists, what types of amplifiers would typically be preferred? ### Context: Grunge is generally characterized by a sludgy electric guitar sound with a thick middle register and rolled-off treble tone and a high level of distortion and fuzz, typically created with small 1970s-style stompbox pedals, with some guitarists chaining several fuzz pedals together and plugging them into a tube amplifier and speaker cabinet.Grunge guitarists use very loud Marshall guitar amplifiers and some used powerful Mesa-Boogie amplifiers, including Kurt Cobain and Dave Grohl (the latter in early, grunge-oriented Foo Fighters songs). Grunge has been called the rock genre with the most "lugubrious sound"; the use of heavy distortion and loud amps has been compared to a massive "buildup of sonic fog" or even dismissed as "noise" by one critic.As with metal and punk, a key part of grunge's sound is very distorted power chords played on the electric guitar. ### Answer: Some grunge guitarists use loud Marshall or Mesa-Boogie amplifiers.</s>

Given this paragraph about Grumpy Cat, tell me the cat's real name.

Tardar Sauce (April 4, 2012 – May 14, 2019), nicknamed Grumpy Cat, was an American Internet celebrity cat. She was known for her permanently "grumpy" facial appearance, which was caused by an underbite and feline dwarfism. She came to prominence when a photograph of her was posted on September 22, 2012, on social news website Reddit by Bryan Bundesen, the brother of her owner Tabatha Bundesen. "Lolcats" and parodies created from the photograph by Reddit users became popular. She was the subject of a popular Internet meme in which humorously negative, cynical images were made from photographs of her.

Grumpy Cat was actually a nickname for the famous internet celebrity meme cat. Her real name was Tardar Sauce.

closed_qa

### Instruction: Given this paragraph about Grumpy Cat, tell me the cat's real name. ### Context: Tardar Sauce (April 4, 2012 – May 14, 2019), nicknamed Grumpy Cat, was an American Internet celebrity cat. She was known for her permanently "grumpy" facial appearance, which was caused by an underbite and feline dwarfism. She came to prominence when a photograph of her was posted on September 22, 2012, on social news website Reddit by Bryan Bundesen, the brother of her owner Tabatha Bundesen. "Lolcats" and parodies created from the photograph by Reddit users became popular. She was the subject of a popular Internet meme in which humorously negative, cynical images were made from photographs of her. ### Answer: Grumpy Cat was actually a nickname for the famous internet celebrity meme cat. Her real name was Tardar Sauce.</s>

Based on this paragrah, what indie band released the album "Popsicle"?

Popsicle is an alternative rock album by indie band Diamond Nights, released in 2005. The song "The Girl's Attractive" was featured in a 2006 Jaguar and an Austrian beer (Stiegl) advertisement, as well on the "Thirst" and "Nicodemus" episodes of the TV drama Smallville, and was included on its second Soundtrack The Metropolis Mix .

Diamond Nights

closed_qa

### Instruction: Based on this paragrah, what indie band released the album "Popsicle"? ### Context: Popsicle is an alternative rock album by indie band Diamond Nights, released in 2005. The song "The Girl's Attractive" was featured in a 2006 Jaguar and an Austrian beer (Stiegl) advertisement, as well on the "Thirst" and "Nicodemus" episodes of the TV drama Smallville, and was included on its second Soundtrack The Metropolis Mix . ### Answer: Diamond Nights</s>

Given the following paragraph, where did House music originate?

House is a music genre characterized by a repetitive four-on-the-floor beat and a typical tempo of 120 beats per minute. It was created by DJs and music producers from Chicago's underground club culture in the early/mid 1980s, as DJs began altering disco songs to give them a more mechanical beat. House was pioneered by African American DJs and producers in Chicago such as Frankie Knuckles, Ron Hardy, Jesse Saunders, Chip E., Joe Smooth, Steve "Silk" Hurley, Farley "Jackmaster" Funk, Marshall Jefferson, Phuture, and others. House music expanded to other cities such as London, then New York City and became a worldwide phenomenon.

House music originated in Chicago, Illinois in the United States of America by producers/DJs such as Frankie Knuckles, Ron Hardy, and Jesse Saunders.

closed_qa

### Instruction: Given the following paragraph, where did House music originate? ### Context: House is a music genre characterized by a repetitive four-on-the-floor beat and a typical tempo of 120 beats per minute. It was created by DJs and music producers from Chicago's underground club culture in the early/mid 1980s, as DJs began altering disco songs to give them a more mechanical beat. House was pioneered by African American DJs and producers in Chicago such as Frankie Knuckles, Ron Hardy, Jesse Saunders, Chip E., Joe Smooth, Steve "Silk" Hurley, Farley "Jackmaster" Funk, Marshall Jefferson, Phuture, and others. House music expanded to other cities such as London, then New York City and became a worldwide phenomenon. ### Answer: House music originated in Chicago, Illinois in the United States of America by producers/DJs such as Frankie Knuckles, Ron Hardy, and Jesse Saunders.</s>

Who is Evelyn Quan Wang in the move "Everything Everywhere All at Once"?

Evelyn Quan Wang is a middle-aged Chinese American immigrant who runs a laundromat with her husband, Waymond; two decades earlier, they eloped to the United States and had a daughter, Joy. The laundromat is being audited by the Internal Revenue Service (IRS), Waymond is trying to serve Evelyn divorce papers in an attempt to get her attention so they can talk things out regarding their marriage, Evelyn's demanding father (referred to as Gong Gong, Cantonese for 'grandfather') is visiting for her Chinese New Year party, and Evelyn is reluctant to accept Joy's lesbian relationship with her non-Chinese girlfriend Becky (only introducing Becky to Gong Gong as Joy's "very good friend").

Evelyn Quan Wang is a middle-aged Chinese American immigrant who runs a laundromat with her husband, Waymond.

closed_qa

### Instruction: Who is Evelyn Quan Wang in the move "Everything Everywhere All at Once"? ### Context: Evelyn Quan Wang is a middle-aged Chinese American immigrant who runs a laundromat with her husband, Waymond; two decades earlier, they eloped to the United States and had a daughter, Joy. The laundromat is being audited by the Internal Revenue Service (IRS), Waymond is trying to serve Evelyn divorce papers in an attempt to get her attention so they can talk things out regarding their marriage, Evelyn's demanding father (referred to as Gong Gong, Cantonese for 'grandfather') is visiting for her Chinese New Year party, and Evelyn is reluctant to accept Joy's lesbian relationship with her non-Chinese girlfriend Becky (only introducing Becky to Gong Gong as Joy's "very good friend"). ### Answer: Evelyn Quan Wang is a middle-aged Chinese American immigrant who runs a laundromat with her husband, Waymond.</s>

Given the reference text about Mother Teresa's international charity, how many languages did Mother Teresa speak?

Mother Teresa said, "By blood, I am Albanian. By citizenship, an Indian. By faith, I am a Catholic nun. As to my calling, I belong to the world. As to my heart, I belong entirely to the Heart of Jesus." Fluent in five languages – Bengali, Albanian, Serbian, English and Hindi – she made occasional trips outside India for humanitarian reasons. At the height of the Siege of Beirut in 1982, Mother Teresa rescued 37 children trapped in a front-line hospital by brokering a temporary cease-fire between the Israeli army and Palestinian guerrillas. Accompanied by Red Cross workers, she travelled through the war zone to the hospital to evacuate the young patients. When Eastern Europe experienced increased openness in the late 1980s, Mother Teresa expanded her efforts to Communist countries which had rejected the Missionaries of Charity. She began dozens of projects, undeterred by criticism of her stands against abortion and divorce: "No matter who says what, you should accept it with a smile and do your own work." She visited Armenia after the 1988 earthquake and met with Soviet Premier Nikolai Ryzhkov. Mother Teresa travelled to assist the hungry in Ethiopia, radiation victims at Chernobyl and earthquake victims in Armenia. In 1991 she returned to Albania for the first time, opening a Missionaries of Charity Brothers home in Tirana. By 1996, the Missionaries of Charity operated 517 missions in over 100 countries. The number of sisters in the Missionaries of Charity grew from twelve to thousands, serving the "poorest of the poor" in 450 centres worldwide. The first Missionaries of Charity home in the United States was established in the South Bronx area of New York City, and by 1984 the congregation operated 19 establishments throughout the country.

Mother Teresa was fluent in five languages, namely Bengali, Albanian, Serbian, English and Hindi.

closed_qa

### Instruction: Given the reference text about Mother Teresa's international charity, how many languages did Mother Teresa speak? ### Context: Mother Teresa said, "By blood, I am Albanian. By citizenship, an Indian. By faith, I am a Catholic nun. As to my calling, I belong to the world. As to my heart, I belong entirely to the Heart of Jesus." Fluent in five languages – Bengali, Albanian, Serbian, English and Hindi – she made occasional trips outside India for humanitarian reasons. At the height of the Siege of Beirut in 1982, Mother Teresa rescued 37 children trapped in a front-line hospital by brokering a temporary cease-fire between the Israeli army and Palestinian guerrillas. Accompanied by Red Cross workers, she travelled through the war zone to the hospital to evacuate the young patients. When Eastern Europe experienced increased openness in the late 1980s, Mother Teresa expanded her efforts to Communist countries which had rejected the Missionaries of Charity. She began dozens of projects, undeterred by criticism of her stands against abortion and divorce: "No matter who says what, you should accept it with a smile and do your own work." She visited Armenia after the 1988 earthquake and met with Soviet Premier Nikolai Ryzhkov. Mother Teresa travelled to assist the hungry in Ethiopia, radiation victims at Chernobyl and earthquake victims in Armenia. In 1991 she returned to Albania for the first time, opening a Missionaries of Charity Brothers home in Tirana. By 1996, the Missionaries of Charity operated 517 missions in over 100 countries. The number of sisters in the Missionaries of Charity grew from twelve to thousands, serving the "poorest of the poor" in 450 centres worldwide. The first Missionaries of Charity home in the United States was established in the South Bronx area of New York City, and by 1984 the congregation operated 19 establishments throughout the country. ### Answer: Mother Teresa was fluent in five languages, namely Bengali, Albanian, Serbian, English and Hindi.</s>

Given this paragraph about the First Treaty that was signed after the Russo-Japanese War, was there a secret component?

After the Russo-Japanese War, the First Treaty was signed on 30 July 1907 by Motono Ichirō, the Japanese Ambassador in Moscow, and Alexander Izvolsky, the Foreign Minister of Russian. The treaty was divided into two parts: one is open agreement, which respected the treaties concluded between the two countries and China, respected China's independence, promoted open doors, and achieved equal opportunities and another is secret agreement, which defined the scope of Japan's interests in Southern Manchuria and Russia's interests in Northern Manchuria and Japan recognized Russia's interests in Outer Mongolia, and Russia recognized Japan's interests in the Korean Peninsula.

Yes. The second part of the First Treaty contained a secret agreement which defined the political scope of each party's interest.

closed_qa

### Instruction: Given this paragraph about the First Treaty that was signed after the Russo-Japanese War, was there a secret component? ### Context: After the Russo-Japanese War, the First Treaty was signed on 30 July 1907 by Motono Ichirō, the Japanese Ambassador in Moscow, and Alexander Izvolsky, the Foreign Minister of Russian. The treaty was divided into two parts: one is open agreement, which respected the treaties concluded between the two countries and China, respected China's independence, promoted open doors, and achieved equal opportunities and another is secret agreement, which defined the scope of Japan's interests in Southern Manchuria and Russia's interests in Northern Manchuria and Japan recognized Russia's interests in Outer Mongolia, and Russia recognized Japan's interests in the Korean Peninsula. ### Answer: Yes. The second part of the First Treaty contained a secret agreement which defined the political scope of each party's interest.</s>

How old was Pukeiti when he died?

Pukeiti Pukeiti (c. 1948 - 18 October 2012) was a Cook Islands politician and Member of the Cook Islands Parliament. He was a member of the Cook Islands Party. He represented the electorate of Tamarua. Pukeiti was elected to Parliament in the 2009 Tamarua by-election following the death of MP Mii Parima. He was re-elected at the 2010 election.

64 years old. He was born in 1948 and died in 2012, so 2012 - 1948 = 64.

closed_qa

### Instruction: How old was Pukeiti when he died? ### Context: Pukeiti Pukeiti (c. 1948 - 18 October 2012) was a Cook Islands politician and Member of the Cook Islands Parliament. He was a member of the Cook Islands Party. He represented the electorate of Tamarua. Pukeiti was elected to Parliament in the 2009 Tamarua by-election following the death of MP Mii Parima. He was re-elected at the 2010 election. ### Answer: 64 years old. He was born in 1948 and died in 2012, so 2012 - 1948 = 64.</s>

In the first few months how many children were registered?

The children were sent mainly to the four Dominion countries, Canada 1,532 (in nine parties), Australia 577 (three parties), New Zealand 202 (two parties), and South Africa 353 (two parties), and 838 to the USA under the United States Committee for the Care of European Children programme. In the first few months over 211,000 children were registered with the scheme. A further 24,000 children had been approved for sailing in that time and over 1,000 volunteer escorts, including doctors and nurses, enrolled. It was planned as a temporary exile for the children, to return home to their families when conditions permitted.

211,000 children were registered in the scheme in the first few months.

closed_qa

### Instruction: In the first few months how many children were registered? ### Context: The children were sent mainly to the four Dominion countries, Canada 1,532 (in nine parties), Australia 577 (three parties), New Zealand 202 (two parties), and South Africa 353 (two parties), and 838 to the USA under the United States Committee for the Care of European Children programme. In the first few months over 211,000 children were registered with the scheme. A further 24,000 children had been approved for sailing in that time and over 1,000 volunteer escorts, including doctors and nurses, enrolled. It was planned as a temporary exile for the children, to return home to their families when conditions permitted. ### Answer: 211,000 children were registered in the scheme in the first few months.</s>

Given this article, what is the largest size for a dead man zone?

The dead man zone is the area directly around a bushfire that is likely to burn within five minutes given the current wind conditions or an anticipated change in wind direction. The distance this zone extends from the firefront is highly dependent on terrain, windspeed, fuel type and composition, relative humidity and ambient temperature, and can range from under 100 metres (330 ft) to well over 1 kilometre (3,300 ft).

The largest size for a dead man zone is 1 kilometre

closed_qa

### Instruction: Given this article, what is the largest size for a dead man zone? ### Context: The dead man zone is the area directly around a bushfire that is likely to burn within five minutes given the current wind conditions or an anticipated change in wind direction. The distance this zone extends from the firefront is highly dependent on terrain, windspeed, fuel type and composition, relative humidity and ambient temperature, and can range from under 100 metres (330 ft) to well over 1 kilometre (3,300 ft). ### Answer: The largest size for a dead man zone is 1 kilometre</s>

Given a reference text about Friedrich Rudolf Ludwig Freiherr von Canitz, when and where was he born?

Friedrich Rudolf Ludwig Freiherr von Canitz (27 November 1654 – 11 August 1699) was a German poet and diplomat. He was one of the few German poets of his era that Frederick the Great enjoyed. Biography Canitz was born in Berlin, Brandenburg. He was influenced by Boileau. He attended the universities of Leiden and Leipzig, travelled in England, France, Italy and the Netherlands, and on his return was appointed groom of the bedchamber (Kammerjunker) to Frederick William, Elector of Brandenburg, whom he accompanied on his campaigns in Pomerania and Sweden. In 1680 Canitz became councillor of legation, and he was employed on various embassies. In 1697 Elector Frederick III made him a privy councillor, and Emperor Leopold I created him a baron of the Empire. Having fallen ill on an embassy to the Hague, he obtained his discharge and died at Berlin in 1699. He wrote verse in a restrained, sober style. He was considered as one of the poets who “produced verse that was specifically aimed at entertaining and flattering princes and high courtiers.” Although he liked making verse in many languages, he never published any of them. Canitz's poems (Nebenstunden unterschiedener Gedichte), which did not appear until after his death (1700), are for the most part dry and stilted imitations of French and Latin models, but they formed a healthy contrast to the coarseness and bombast of the later Silesian poets. A complete edition of Canitz's poems was published by U. König in 1727; see also L. Fulda, Die Gegner der zweiten schlesischen Schule, ii. (1883).

Friedrich Rudolf Ludwig Freiherr von Canitz was born in Berlin on November 27, 1654.

closed_qa

### Instruction: Given a reference text about Friedrich Rudolf Ludwig Freiherr von Canitz, when and where was he born? ### Context: Friedrich Rudolf Ludwig Freiherr von Canitz (27 November 1654 – 11 August 1699) was a German poet and diplomat. He was one of the few German poets of his era that Frederick the Great enjoyed. Biography Canitz was born in Berlin, Brandenburg. He was influenced by Boileau. He attended the universities of Leiden and Leipzig, travelled in England, France, Italy and the Netherlands, and on his return was appointed groom of the bedchamber (Kammerjunker) to Frederick William, Elector of Brandenburg, whom he accompanied on his campaigns in Pomerania and Sweden. In 1680 Canitz became councillor of legation, and he was employed on various embassies. In 1697 Elector Frederick III made him a privy councillor, and Emperor Leopold I created him a baron of the Empire. Having fallen ill on an embassy to the Hague, he obtained his discharge and died at Berlin in 1699. He wrote verse in a restrained, sober style. He was considered as one of the poets who “produced verse that was specifically aimed at entertaining and flattering princes and high courtiers.” Although he liked making verse in many languages, he never published any of them. Canitz's poems (Nebenstunden unterschiedener Gedichte), which did not appear until after his death (1700), are for the most part dry and stilted imitations of French and Latin models, but they formed a healthy contrast to the coarseness and bombast of the later Silesian poets. A complete edition of Canitz's poems was published by U. König in 1727; see also L. Fulda, Die Gegner der zweiten schlesischen Schule, ii. (1883). ### Answer: Friedrich Rudolf Ludwig Freiherr von Canitz was born in Berlin on November 27, 1654.</s>

Which was the longest Wimbledon men's final?

2019: Record third Hopman Cup, 100th title, 1200th match win and 12th Wimbledon final Main article: 2019 Roger Federer tennis season Federer opened his campaign by retaining the Hopman Cup alongside Belinda Bencic, becoming the first player to win the mixed-gender event three times. Federer was seeded third at the 2019 Australian Open, entering as the two-time defending champion. He defeated Denis Istomin, Dan Evans, and Taylor Fritz to reach the fourth round, where he faced 14th seed Stefanos Tsitsipas. In a stunning upset, Tsitsipas defeated Federer in four close sets. Critically, Federer was unable to convert any of the twelve break points he held throughout the match, including four set points in the second set. After the match Federer announced he would play the clay court season for the first time since 2016. At the Dubai Tennis Championships Federer won his 100th Career Singles Title, beating Tsitsipas in straight sets in the final. It was his eighth title in Dubai and he became only the second man after Jimmy Connors to reach the three figure mark in the Open Era. Federer then reached the final of the 2019 Indian Wells Masters where he lost to Dominic Thiem in three sets. On 31 March, Federer defeated John Isner at the 2019 Miami Open in straights sets to win his 4th Miami Open title and 28th Masters title. Federer then played his first clay court tournament in three years at the 2019 Madrid Open and secured his 1200th career win, beating Gaël Monfils in the third round. In the quarterfinals he lost to Dominic Thiem again in three sets, despite having two match points in the second set. Federer then played at the Italian Open and reached the quarterfinals but was forced to withdraw from his quarterfinal match against Stefanos Tsitsipas due to a right leg injury. Federer next played at the French Open for the first time in 4 years and seeded 3rd in the draw. Federer achieved comfortable straight-set victories against Lorenzo Sonego, Oscar Otte, Casper Ruud and Leonardo Mayer to reach the quarterfinals, where he faced good friend and compatriot Stan Wawrinka. Federer managed to avenge his loss to Wawrinka at the same stage of the tournament 4 years ago, winning in 4 sets after 3 hours and 35 minutes. With the victory Federer returned to the semifinals of the French Open for the first time since 2012, where he lost to defending and 11-time champion Rafael Nadal in straight sets. Federer then began his grass court season at the Halle Open where he won his tenth title at the event, defeating David Goffin in the final in straight sets. This marked the first time Federer had won a singles tournament ten times or more. At Wimbledon, Roger Federer reached his record 12th final at the tournament after ousting his nemesis Rafael Nadal in four sets in the semifinal; thus, exacting revenge for his earlier defeat to him at the French Open. This was also the first time Federer played Nadal at Wimbledon since the 2008 Wimbledon final, a match regarded by some as the greatest match in the history of tennis. Federer then faced Novak Djokovic in the final, against whom he lost in a five set thriller lasting 4 hours and 57 minutes, despite having two championship points on serve in the fifth set. The match also marked the first time a fifth set tiebreaker was played at 12 games all in the men's singles and was the longest men's final in Wimbledon history. Federer next played at the 2019 Cincinnati Masters and reached the third round where he lost in straight sets to Andrey Rublev. This was his quickest defeat in 16 years, taking just 62 minutes. At the 2019 US Open, he was seeded third. He dropped the first set against both Sumit Nagal and Damir Džumhur in the first two rounds, but pulled out convincing straight sets wins over Dan Evans and David Goffin in the third and fourth. In the quarterfinals, he faced Grigor Dimitrov, who was ranked No. 78 going into the tournament. Despite taking a two sets to one lead, Federer ultimately lost the match in five sets. At the 2019 Shanghai Masters, Federer defeated David Goffin in straight sets to reach the quarterfinals. However, he lost the quarterfinal to Alexander Zverev in three sets. Federer advanced to the Swiss Indoors as the two-time defending champion. His first round match, against Peter Gojowczyk, was remarkable for being the 1500th match of his career. In the final, he defeated Alex de Minaur in straight sets for a record-extending tenth Swiss Indoors title. Federer then played in the Björn Borg group at the 2019 ATP Finals where in the round robin, he lost his opening match to Dominic Thiem in straight sets but beat Matteo Berrettini and Djokovic (his first win over Djokovic since 2015) in straight sets to qualify for the semifinals. He then lost the semifinal to Stefanos Tsitsipas in straight sets. 2020: Australian Open semifinals and right knee surgery Federer began his 2020 season at the 2020 Australian Open. He reached the semifinals after straight sets wins over Steve Johnson and Filip Krajinović, a five-set win over John Millman and a four-set win over Márton Fucsovics. Federer saved seven match points in his five-set quarterfinal win over Tennys Sandgren. Federer then lost his semifinal match to Djokovic in straight sets, having sustained a groin injury earlier in the tournament. In February, Federer underwent arthroscopic surgery for a right knee injury and subsequently withdrew from the Dubai Championships, Indian Wells, Miami Open, and the French Open to give time for his knee to recover, announcing that he would return in the grass season. On 10 June, due to a setback from his initial rehabilitation from the knee injury suffered earlier in the year, Federer announced that he had to have an additional arthroscopic procedure on his right knee. He officially shut down his season to take the necessary time to recover, vowing to return in 2021. This was only the second year in Federer's career since he won his first title that he finished without a title. 2021: Wimbledon quarterfinal and last singles match, injuries In January, Federer withdrew from the 2021 Australian Open due to still recovering from knee surgery and strict COVID-19 quarantine measures in Australia. On 8 March, Novak Djokovic surpassed him for the most career weeks spent as the ATP number 1 ranked player. On 10 March, he made his return to the ATP Tour at the Qatar Open. He won his first ATP match in 14 months against Dan Evans, but lost to Nikoloz Basilashvili in the quarterfinals. Federer then played at the Geneva Open where he lost his opening match to Pablo Andújar in three sets. After defeating Dominik Koepfer of Germany in four sets in the third round, Federer advanced to the fourth round at the French Open. However, he withdrew from the tournament before his fourth-round match citing knee problems, giving a walkover to Matteo Berrettini of Italy. In 2021 Halle Open where he was seeded fifth, he lost in the second round to Félix Auger-Aliassime. Federer was playing against the 20-year-old for the first time. Their 19-year age difference was the biggest in Federer's 1,521 career matches. This was the earliest exit at this tournament for Federer who was seeking his 70th match win in Halle, and his 18th quarterfinal at this event in as many appearances. At Wimbledon, 39-year-old Federer advanced to the quarterfinals and thus became the oldest Wimbledon quarterfinalist in the Open Era, breaking the record held by Ken Rosewall, following wins over Adrian Mannarino by retirement, Richard Gasquet, 29th seed Cameron Norrie, and 23rd seed Lorenzo Sonego. However, he was then upset by 14th seed Hubert Hurkacz in the quarterfinal in straight sets. This was the first time in 19 years at Wimbledon he had lost in straight sets, and only the second time he had lost a set 6–0 in the 21st century (the previous occasion was against Nadal in the 2008 French Open final). On 15 August, Federer announced that he underwent another knee surgery after further injury during the grass court season. He withdrew from the US Open and stated that he would be off the tour for "many months," but he hoped to make a return to the tour in 2022. 2022: Retirement and farewell alongside rivals Federer did not play after Wimbledon 2021, and dropped out of the top 50 on 13 June 2022. On 11 July 2022, he became unranked for the first time since his professional debut. However, Federer announced that he was set to return to the tour at the 2022 Laver Cup in September. On 15 September 2022, he announced his impending retirement from professional tennis on the ATP Tour, noting that the Laver Cup would be his final ATP event. He stated that he "will play more tennis in the future, of course, but just not in Grand Slams or on the tour." His final match resulted in a loss in doubles partnering long-time rival and friend Rafael Nadal, against Jack Sock and Frances Tiafoe. The match was his 1750th on the tour.

The 2019 men's final was the longest final in Wimbledon's history, lasting 4 hours and 57 minutes. Roger Federer faced Novak Djokovic in this match and lost to him in five sets.

closed_qa

### Instruction: Which was the longest Wimbledon men's final? ### Context: 2019: Record third Hopman Cup, 100th title, 1200th match win and 12th Wimbledon final Main article: 2019 Roger Federer tennis season Federer opened his campaign by retaining the Hopman Cup alongside Belinda Bencic, becoming the first player to win the mixed-gender event three times. Federer was seeded third at the 2019 Australian Open, entering as the two-time defending champion. He defeated Denis Istomin, Dan Evans, and Taylor Fritz to reach the fourth round, where he faced 14th seed Stefanos Tsitsipas. In a stunning upset, Tsitsipas defeated Federer in four close sets. Critically, Federer was unable to convert any of the twelve break points he held throughout the match, including four set points in the second set. After the match Federer announced he would play the clay court season for the first time since 2016. At the Dubai Tennis Championships Federer won his 100th Career Singles Title, beating Tsitsipas in straight sets in the final. It was his eighth title in Dubai and he became only the second man after Jimmy Connors to reach the three figure mark in the Open Era. Federer then reached the final of the 2019 Indian Wells Masters where he lost to Dominic Thiem in three sets. On 31 March, Federer defeated John Isner at the 2019 Miami Open in straights sets to win his 4th Miami Open title and 28th Masters title. Federer then played his first clay court tournament in three years at the 2019 Madrid Open and secured his 1200th career win, beating Gaël Monfils in the third round. In the quarterfinals he lost to Dominic Thiem again in three sets, despite having two match points in the second set. Federer then played at the Italian Open and reached the quarterfinals but was forced to withdraw from his quarterfinal match against Stefanos Tsitsipas due to a right leg injury. Federer next played at the French Open for the first time in 4 years and seeded 3rd in the draw. Federer achieved comfortable straight-set victories against Lorenzo Sonego, Oscar Otte, Casper Ruud and Leonardo Mayer to reach the quarterfinals, where he faced good friend and compatriot Stan Wawrinka. Federer managed to avenge his loss to Wawrinka at the same stage of the tournament 4 years ago, winning in 4 sets after 3 hours and 35 minutes. With the victory Federer returned to the semifinals of the French Open for the first time since 2012, where he lost to defending and 11-time champion Rafael Nadal in straight sets. Federer then began his grass court season at the Halle Open where he won his tenth title at the event, defeating David Goffin in the final in straight sets. This marked the first time Federer had won a singles tournament ten times or more. At Wimbledon, Roger Federer reached his record 12th final at the tournament after ousting his nemesis Rafael Nadal in four sets in the semifinal; thus, exacting revenge for his earlier defeat to him at the French Open. This was also the first time Federer played Nadal at Wimbledon since the 2008 Wimbledon final, a match regarded by some as the greatest match in the history of tennis. Federer then faced Novak Djokovic in the final, against whom he lost in a five set thriller lasting 4 hours and 57 minutes, despite having two championship points on serve in the fifth set. The match also marked the first time a fifth set tiebreaker was played at 12 games all in the men's singles and was the longest men's final in Wimbledon history. Federer next played at the 2019 Cincinnati Masters and reached the third round where he lost in straight sets to Andrey Rublev. This was his quickest defeat in 16 years, taking just 62 minutes. At the 2019 US Open, he was seeded third. He dropped the first set against both Sumit Nagal and Damir Džumhur in the first two rounds, but pulled out convincing straight sets wins over Dan Evans and David Goffin in the third and fourth. In the quarterfinals, he faced Grigor Dimitrov, who was ranked No. 78 going into the tournament. Despite taking a two sets to one lead, Federer ultimately lost the match in five sets. At the 2019 Shanghai Masters, Federer defeated David Goffin in straight sets to reach the quarterfinals. However, he lost the quarterfinal to Alexander Zverev in three sets. Federer advanced to the Swiss Indoors as the two-time defending champion. His first round match, against Peter Gojowczyk, was remarkable for being the 1500th match of his career. In the final, he defeated Alex de Minaur in straight sets for a record-extending tenth Swiss Indoors title. Federer then played in the Björn Borg group at the 2019 ATP Finals where in the round robin, he lost his opening match to Dominic Thiem in straight sets but beat Matteo Berrettini and Djokovic (his first win over Djokovic since 2015) in straight sets to qualify for the semifinals. He then lost the semifinal to Stefanos Tsitsipas in straight sets. 2020: Australian Open semifinals and right knee surgery Federer began his 2020 season at the 2020 Australian Open. He reached the semifinals after straight sets wins over Steve Johnson and Filip Krajinović, a five-set win over John Millman and a four-set win over Márton Fucsovics. Federer saved seven match points in his five-set quarterfinal win over Tennys Sandgren. Federer then lost his semifinal match to Djokovic in straight sets, having sustained a groin injury earlier in the tournament. In February, Federer underwent arthroscopic surgery for a right knee injury and subsequently withdrew from the Dubai Championships, Indian Wells, Miami Open, and the French Open to give time for his knee to recover, announcing that he would return in the grass season. On 10 June, due to a setback from his initial rehabilitation from the knee injury suffered earlier in the year, Federer announced that he had to have an additional arthroscopic procedure on his right knee. He officially shut down his season to take the necessary time to recover, vowing to return in 2021. This was only the second year in Federer's career since he won his first title that he finished without a title. 2021: Wimbledon quarterfinal and last singles match, injuries In January, Federer withdrew from the 2021 Australian Open due to still recovering from knee surgery and strict COVID-19 quarantine measures in Australia. On 8 March, Novak Djokovic surpassed him for the most career weeks spent as the ATP number 1 ranked player. On 10 March, he made his return to the ATP Tour at the Qatar Open. He won his first ATP match in 14 months against Dan Evans, but lost to Nikoloz Basilashvili in the quarterfinals. Federer then played at the Geneva Open where he lost his opening match to Pablo Andújar in three sets. After defeating Dominik Koepfer of Germany in four sets in the third round, Federer advanced to the fourth round at the French Open. However, he withdrew from the tournament before his fourth-round match citing knee problems, giving a walkover to Matteo Berrettini of Italy. In 2021 Halle Open where he was seeded fifth, he lost in the second round to Félix Auger-Aliassime. Federer was playing against the 20-year-old for the first time. Their 19-year age difference was the biggest in Federer's 1,521 career matches. This was the earliest exit at this tournament for Federer who was seeking his 70th match win in Halle, and his 18th quarterfinal at this event in as many appearances. At Wimbledon, 39-year-old Federer advanced to the quarterfinals and thus became the oldest Wimbledon quarterfinalist in the Open Era, breaking the record held by Ken Rosewall, following wins over Adrian Mannarino by retirement, Richard Gasquet, 29th seed Cameron Norrie, and 23rd seed Lorenzo Sonego. However, he was then upset by 14th seed Hubert Hurkacz in the quarterfinal in straight sets. This was the first time in 19 years at Wimbledon he had lost in straight sets, and only the second time he had lost a set 6–0 in the 21st century (the previous occasion was against Nadal in the 2008 French Open final). On 15 August, Federer announced that he underwent another knee surgery after further injury during the grass court season. He withdrew from the US Open and stated that he would be off the tour for "many months," but he hoped to make a return to the tour in 2022. 2022: Retirement and farewell alongside rivals Federer did not play after Wimbledon 2021, and dropped out of the top 50 on 13 June 2022. On 11 July 2022, he became unranked for the first time since his professional debut. However, Federer announced that he was set to return to the tour at the 2022 Laver Cup in September. On 15 September 2022, he announced his impending retirement from professional tennis on the ATP Tour, noting that the Laver Cup would be his final ATP event. He stated that he "will play more tennis in the future, of course, but just not in Grand Slams or on the tour." His final match resulted in a loss in doubles partnering long-time rival and friend Rafael Nadal, against Jack Sock and Frances Tiafoe. The match was his 1750th on the tour. ### Answer: The 2019 men's final was the longest final in Wimbledon's history, lasting 4 hours and 57 minutes. Roger Federer faced Novak Djokovic in this match and lost to him in five sets.</s>

Given a reference text about Alberto Michán Halbinger, in what olympics did he compete?

Alberto Michán Halbinger (born 2 December 1978) is an Israeli-Mexican Olympic horse rider. Born in Mexico, he competes for Israel. He qualified to represent Israel at the 2020 Summer Olympics in Tokyo. Biography Michan was born in Mexico; his family comes from Israel. He was a finalist at the FEI World Cup Jumping in 2006 and 2007. He competed in the 2006 and 2014 World Equestrian Games. He competed for Mexico at the 2008 Summer Olympics in Beijing, both in individual jumping (coming in 29th) and in team jumping (coming in 8th). He earned a bronze medal in Team Jumping at the 2011 Pan American Games in Guadalajara, Mexico. At the 2012 Summer Olympics, he tied with Scott Brash and Nick Skelton, both of the team-gold medal-winning United Kingdom, for 5th in individual jumping. He was part of the Mexican team for team jumping, which finished in fifth place. He qualified to represent Israel at the 2020 Summer Olympics in Tokyo.

Alberto Michán Halbinger competed in the 2008 and 2012 Summer Olympics.

closed_qa

### Instruction: Given a reference text about Alberto Michán Halbinger, in what olympics did he compete? ### Context: Alberto Michán Halbinger (born 2 December 1978) is an Israeli-Mexican Olympic horse rider. Born in Mexico, he competes for Israel. He qualified to represent Israel at the 2020 Summer Olympics in Tokyo. Biography Michan was born in Mexico; his family comes from Israel. He was a finalist at the FEI World Cup Jumping in 2006 and 2007. He competed in the 2006 and 2014 World Equestrian Games. He competed for Mexico at the 2008 Summer Olympics in Beijing, both in individual jumping (coming in 29th) and in team jumping (coming in 8th). He earned a bronze medal in Team Jumping at the 2011 Pan American Games in Guadalajara, Mexico. At the 2012 Summer Olympics, he tied with Scott Brash and Nick Skelton, both of the team-gold medal-winning United Kingdom, for 5th in individual jumping. He was part of the Mexican team for team jumping, which finished in fifth place. He qualified to represent Israel at the 2020 Summer Olympics in Tokyo. ### Answer: Alberto Michán Halbinger competed in the 2008 and 2012 Summer Olympics.</s>

What is postmodernism?

Postmodernism is an intellectual stance or mode of discourse characterized by skepticism toward the "grand narratives" of modernism; rejection of epistemic certainty or the stability of meaning; and sensitivity to the role of ideology in maintaining political power. Claims to objectivity are dismissed as naïve realism, with attention drawn to the conditional nature of knowledge claims within particular historical, political, and cultural discourses. The postmodern outlook is characterized by self-referentiality, epistemological relativism, moral relativism, pluralism, irony, irreverence, and eclecticism; it rejects the "universal validity" of binary oppositions, stable identity, hierarchy, and categorization Initially emerging from a mode of literary criticism, postmodernism developed in the mid-twentieth century as a rejection of modernism, and has been observed across many disciplines. Postmodernism is associated with the disciplines deconstruction and post-structuralism. Various authors have criticized postmodernism as promoting obscurantism, as abandoning Enlightenment rationalism and scientific rigor, and as adding nothing to analytical or empirical knowledge

Postmodernism is a philosophical position that questions the certainty and immutability of human knowledge. It emerges in opposition to the main tenets of modernism and rejects claims of objective universal truths that are not bound and shaped by the social, historical, political and cultural context in which they arise. Postmodernist attitudes are characterized by moral relativism, a view where opposite moral precepts and world views are equally valid regardless of their consequences or scientific underpinning. This has led to criticism from thinkers that subscribe to rationalism and the notion that objective truths can be derived from scientific rigor.

closed_qa

### Instruction: What is postmodernism? ### Context: Postmodernism is an intellectual stance or mode of discourse characterized by skepticism toward the "grand narratives" of modernism; rejection of epistemic certainty or the stability of meaning; and sensitivity to the role of ideology in maintaining political power. Claims to objectivity are dismissed as naïve realism, with attention drawn to the conditional nature of knowledge claims within particular historical, political, and cultural discourses. The postmodern outlook is characterized by self-referentiality, epistemological relativism, moral relativism, pluralism, irony, irreverence, and eclecticism; it rejects the "universal validity" of binary oppositions, stable identity, hierarchy, and categorization Initially emerging from a mode of literary criticism, postmodernism developed in the mid-twentieth century as a rejection of modernism, and has been observed across many disciplines. Postmodernism is associated with the disciplines deconstruction and post-structuralism. Various authors have criticized postmodernism as promoting obscurantism, as abandoning Enlightenment rationalism and scientific rigor, and as adding nothing to analytical or empirical knowledge ### Answer: Postmodernism is a philosophical position that questions the certainty and immutability of human knowledge. It emerges in opposition to the main tenets of modernism and rejects claims of objective universal truths that are not bound and shaped by the social, historical, political and cultural context in which they arise. Postmodernist attitudes are characterized by moral relativism, a view where opposite moral precepts and world views are equally valid regardless of their consequences or scientific underpinning. This has led to criticism from thinkers that subscribe to rationalism and the notion that objective truths can be derived from scientific rigor.</s>

Who won the 149th Boat Race?

The 149th Boat Race took place on 6 April 2003. Held annually, the Boat Race is a side-by-side rowing race between crews from the Universities of Oxford (in dark blue) and Cambridge (in light greenish blue) along a 4.2-mile (6.8 km) tidal stretch of the River Thames in south-west London. The lead changed twice during the race, which Oxford won by one foot (30 cm), the smallest margin of victory in the history of the event. The close race has been described as "epic," while Olympic gold medalist Steve Redgrave suggested that the race was the "greatest we will see in our lifetimes." Umpired by the Boat Race veteran Boris Rankov, the 2003 race was the first to be scheduled on a Sunday. As a result of a collision between the Cambridge boat and a launch, a member of the Cambridge crew was replaced just two days before the race. This was the first Boat Race to feature two sets of brothers on opposing sides. In the reserve race Goldie beat Isis and Oxford won the Women's race.

The 149th Boat Race took place on April 6, 2003 and was held between the Universities of Oxford and Cambridge. Oxford won the face by one foot (30 cm), making it the smallest margin of victory in the history of the event.

closed_qa

### Instruction: Who won the 149th Boat Race? ### Context: The 149th Boat Race took place on 6 April 2003. Held annually, the Boat Race is a side-by-side rowing race between crews from the Universities of Oxford (in dark blue) and Cambridge (in light greenish blue) along a 4.2-mile (6.8 km) tidal stretch of the River Thames in south-west London. The lead changed twice during the race, which Oxford won by one foot (30 cm), the smallest margin of victory in the history of the event. The close race has been described as "epic," while Olympic gold medalist Steve Redgrave suggested that the race was the "greatest we will see in our lifetimes." Umpired by the Boat Race veteran Boris Rankov, the 2003 race was the first to be scheduled on a Sunday. As a result of a collision between the Cambridge boat and a launch, a member of the Cambridge crew was replaced just two days before the race. This was the first Boat Race to feature two sets of brothers on opposing sides. In the reserve race Goldie beat Isis and Oxford won the Women's race. ### Answer: The 149th Boat Race took place on April 6, 2003 and was held between the Universities of Oxford and Cambridge. Oxford won the face by one foot (30 cm), making it the smallest margin of victory in the history of the event.</s>

Given this paragraph about blockchain, how did blockchain influence bitcoin cryptocurrency?

Blockchains are typically managed by a peer-to-peer (P2P) computer network for use as a public distributed ledger, where nodes collectively adhere to a consensus algorithm protocol to add and validate new transaction blocks. Although blockchain records are not unalterable, since blockchain forks are possible, blockchains may be considered secure by design and exemplify a distributed computing system with high Byzantine fault tolerance. A blockchain was created by a person (or group of people) using the name (or pseudonym) Satoshi Nakamoto in 2008 to serve as the public distributed ledger for bitcoin cryptocurrency transactions, based on previous work by Stuart Haber, W. Scott Stornetta, and Dave Bayer. The implementation of the blockchain within bitcoin made it the first digital currency to solve the double-spending problem without the need of a trusted authority or central server. The bitcoin design has inspired other applications and blockchains that are readable by the public and are widely used by cryptocurrencies. The blockchain may be considered a type of payment rail.

Blockchain is the technology that enables the existence of cryptocurrency and bitcoin is the name of the best-known cryptocurrency. The implementation of bitcoin using blockchain made it the first digital currency to solve the double-spending problem without the need of a trusted authority or central server. Bitcoin has inspired other applications and blockchains that are highly available, public, and are widely used by cryptocurrencies.

closed_qa

### Instruction: Given this paragraph about blockchain, how did blockchain influence bitcoin cryptocurrency? ### Context: Blockchains are typically managed by a peer-to-peer (P2P) computer network for use as a public distributed ledger, where nodes collectively adhere to a consensus algorithm protocol to add and validate new transaction blocks. Although blockchain records are not unalterable, since blockchain forks are possible, blockchains may be considered secure by design and exemplify a distributed computing system with high Byzantine fault tolerance. A blockchain was created by a person (or group of people) using the name (or pseudonym) Satoshi Nakamoto in 2008 to serve as the public distributed ledger for bitcoin cryptocurrency transactions, based on previous work by Stuart Haber, W. Scott Stornetta, and Dave Bayer. The implementation of the blockchain within bitcoin made it the first digital currency to solve the double-spending problem without the need of a trusted authority or central server. The bitcoin design has inspired other applications and blockchains that are readable by the public and are widely used by cryptocurrencies. The blockchain may be considered a type of payment rail. ### Answer: Blockchain is the technology that enables the existence of cryptocurrency and bitcoin is the name of the best-known cryptocurrency. The implementation of bitcoin using blockchain made it the first digital currency to solve the double-spending problem without the need of a trusted authority or central server. Bitcoin has inspired other applications and blockchains that are highly available, public, and are widely used by cryptocurrencies.</s>

Given the reference text about the Cy Young Award, please describe what the award is and why it is awarded.

The Cy Young Award is given annually to the best pitchers in Major League Baseball (MLB), one each for the American League (AL) and National League (NL). The award was first introduced in 1956 by Baseball Commissioner Ford Frick in honor of Hall of Fame pitcher Cy Young, who died in 1955. The award was originally given to the single best pitcher in the major leagues, but in 1967, after the retirement of Frick, the award was given to one pitcher in each league.

The Cy Young Award is given to the best pitches in the American and National leagues of Major League Baseball, for their achievements that exceed those of their peers.

closed_qa

### Instruction: Given the reference text about the Cy Young Award, please describe what the award is and why it is awarded. ### Context: The Cy Young Award is given annually to the best pitchers in Major League Baseball (MLB), one each for the American League (AL) and National League (NL). The award was first introduced in 1956 by Baseball Commissioner Ford Frick in honor of Hall of Fame pitcher Cy Young, who died in 1955. The award was originally given to the single best pitcher in the major leagues, but in 1967, after the retirement of Frick, the award was given to one pitcher in each league. ### Answer: The Cy Young Award is given to the best pitches in the American and National leagues of Major League Baseball, for their achievements that exceed those of their peers.</s>

How to skip rope?

A skipping rope or jump rope is a tool used in the sport of skipping/jump rope where one or more participants jump over a rope swung so that it passes under their feet and over their heads. There are multiple subsets of skipping/jump rope, including single freestyle, single speed, pairs, three-person speed (Double Dutch), and three-person freestyle (Double Dutch freestyle). Rope skipping is commonly performed as an exercise or recreational activity, and there are also several major organizations that support jump rope as a competitive sport. Often separated by sex and age, events include hundreds of competitive teams all around the world. In the US, schools rarely have jump rope teams, and few states have sanctioned official events at the elementary school level. In freestyle events, jumpers use a variety of basic and advanced techniques in a routine of one minute, which is judged by a head judge, content judges, and performance judges. In speed events, a jumper alternates their feet with the rope going around the jumper every time one of their feet hits the ground for 30 seconds, one minute, or three minutes. The jumper is judged on the number of times the right foot touches the ground in those times.

A skipping rope is a fun form of exercise that is enjoyed by children and adults. While holding on to both ends of the rope, allow the middle of rope to rest on the ground in front of your feet, step over the rope so the rope is now behind your feet. Simultaneously, swing both arms over your head in a full swing so the rope is follows the motion of your arms and just before the rope reached the front of your feet, hop with both feet, avoiding the rope and continue the rhythm repeatedly.

closed_qa

### Instruction: How to skip rope? ### Context: A skipping rope or jump rope is a tool used in the sport of skipping/jump rope where one or more participants jump over a rope swung so that it passes under their feet and over their heads. There are multiple subsets of skipping/jump rope, including single freestyle, single speed, pairs, three-person speed (Double Dutch), and three-person freestyle (Double Dutch freestyle). Rope skipping is commonly performed as an exercise or recreational activity, and there are also several major organizations that support jump rope as a competitive sport. Often separated by sex and age, events include hundreds of competitive teams all around the world. In the US, schools rarely have jump rope teams, and few states have sanctioned official events at the elementary school level. In freestyle events, jumpers use a variety of basic and advanced techniques in a routine of one minute, which is judged by a head judge, content judges, and performance judges. In speed events, a jumper alternates their feet with the rope going around the jumper every time one of their feet hits the ground for 30 seconds, one minute, or three minutes. The jumper is judged on the number of times the right foot touches the ground in those times. ### Answer: A skipping rope is a fun form of exercise that is enjoyed by children and adults. While holding on to both ends of the rope, allow the middle of rope to rest on the ground in front of your feet, step over the rope so the rope is now behind your feet. Simultaneously, swing both arms over your head in a full swing so the rope is follows the motion of your arms and just before the rope reached the front of your feet, hop with both feet, avoiding the rope and continue the rhythm repeatedly.</s>

What is a nickname of Jiang Zemin

Moha (Chinese: 膜蛤; pinyin: Mó Há, pronounced [muǒ.xǎ]), literally "admiring toad" or "toad worship", is an internet meme spoofing Jiang Zemin, former General Secretary of the Chinese Communist Party and paramount leader. It originated among the netizens in mainland China and has become a subculture on the Chinese internet. According to another explanation, it comes from China's social media Baidu Tieba. In the culture, Jiang is nicknamed há, or "toad", because of his supposed resemblance to a toad. Netizens who móhá (worship the toad) call themselves "toad fans", "toad lovers" or "toad worshippers" (simplified Chinese: 蛤丝; traditional Chinese: 蛤絲), or "mogicians" (膜法师; 膜法師) which is a wordplay on mófǎshī (魔法师; 魔法師, magician) in Mandarin.[note 1] Another nickname for Jiang is "elder" or "senior" (长者; 長者; Zhǎngzhě), because he once called himself an "elder" or "senior" when he was berating Hong Kong journalist Sharon Cheung who questioned him. A video clip recording this event spread on the internet and led to the rise of the culture, which later greatly rose in popularity around 2014, when Hong Kong was experiencing a period of political instability. Initially, netizens extracted Jiang's quotes from the video and imitated his wording and tone, for parody and insult. However, as the culture developed, some imitations have taken to carrying affection toward him. The quotes for imitation have also evolved to include what he said during his leadership, and in his personal life.

Elder or senior

closed_qa

### Instruction: What is a nickname of Jiang Zemin ### Context: Moha (Chinese: 膜蛤; pinyin: Mó Há, pronounced [muǒ.xǎ]), literally "admiring toad" or "toad worship", is an internet meme spoofing Jiang Zemin, former General Secretary of the Chinese Communist Party and paramount leader. It originated among the netizens in mainland China and has become a subculture on the Chinese internet. According to another explanation, it comes from China's social media Baidu Tieba. In the culture, Jiang is nicknamed há, or "toad", because of his supposed resemblance to a toad. Netizens who móhá (worship the toad) call themselves "toad fans", "toad lovers" or "toad worshippers" (simplified Chinese: 蛤丝; traditional Chinese: 蛤絲), or "mogicians" (膜法师; 膜法師) which is a wordplay on mófǎshī (魔法师; 魔法師, magician) in Mandarin.[note 1] Another nickname for Jiang is "elder" or "senior" (长者; 長者; Zhǎngzhě), because he once called himself an "elder" or "senior" when he was berating Hong Kong journalist Sharon Cheung who questioned him. A video clip recording this event spread on the internet and led to the rise of the culture, which later greatly rose in popularity around 2014, when Hong Kong was experiencing a period of political instability. Initially, netizens extracted Jiang's quotes from the video and imitated his wording and tone, for parody and insult. However, as the culture developed, some imitations have taken to carrying affection toward him. The quotes for imitation have also evolved to include what he said during his leadership, and in his personal life. ### Answer: Elder or senior</s>

Is simul climbing more dangerous for the leader or the follower?

Short for "simultaneous", simul climbing is when two climbers move at the same time. The pseudo-lead climber places gear that the pseudo-follower collects. When the leader runs low on gear they construct a belay station where the follower can join them to exchange gear. The stronger climber is often the pseudo-follower since a fall by the follower would pull the leader from below towards the last piece of gear—a potentially devastating fall for the leader. In contrast, a fall from the leader would pull the follower from above, resulting in a less serious fall. Most speed ascents involve some form of simul climbing but may also include sections of standard free climbing and the use of placed gear for advancement (i.e. partial aid or pulling on gear).

Simul climbing is more dangerous for the leader, since a fall by the follower would pull the leader from below towards the last piece of gear.

closed_qa

### Instruction: Is simul climbing more dangerous for the leader or the follower? ### Context: Short for "simultaneous", simul climbing is when two climbers move at the same time. The pseudo-lead climber places gear that the pseudo-follower collects. When the leader runs low on gear they construct a belay station where the follower can join them to exchange gear. The stronger climber is often the pseudo-follower since a fall by the follower would pull the leader from below towards the last piece of gear—a potentially devastating fall for the leader. In contrast, a fall from the leader would pull the follower from above, resulting in a less serious fall. Most speed ascents involve some form of simul climbing but may also include sections of standard free climbing and the use of placed gear for advancement (i.e. partial aid or pulling on gear). ### Answer: Simul climbing is more dangerous for the leader, since a fall by the follower would pull the leader from below towards the last piece of gear.</s>

When was the french revolution

The French Revolution (French: Révolution française [ʁevɔlysjɔ̃ fʁɑ̃sɛːz]) was a period of radical political and societal change in France that began with the Estates General of 1789 and ended with the formation of the French Consulate in November 1799.

The French revolution started in 1789 and ended in November 1799

closed_qa

### Instruction: When was the french revolution ### Context: The French Revolution (French: Révolution française [ʁevɔlysjɔ̃ fʁɑ̃sɛːz]) was a period of radical political and societal change in France that began with the Estates General of 1789 and ended with the formation of the French Consulate in November 1799. ### Answer: The French revolution started in 1789 and ended in November 1799</s>

What is an "outie" in the context of this paragraph?

Mark's innie awakens in Devon's home and finds himself hugging Cobel. While excusing himself to find Devon, he calls Cobel by name, alerting her that the overtime contingency has been activated. Cobel calls Milchick and has him check the security office. Mark privately reveals to Devon that he is in innie form; Devon tells him of Gemma's death, and learns that "Mrs. Selvig" is Mark's boss. Mark encourages Devon to report Lumon's misdeeds to the press as Lumon likely controls the police. Irving wakes up in his apartment, discovering his outie's paintings and background in the U.S. Navy, and finds a map and employee directory in the closet which he uses to locate Burt. Helly wakes up at a Lumon gala where she learns that her outie is Helena Eagan – daughter of Lumon CEO Jame Eagan – who underwent severance to build public support for legalizing the procedure. Cobel races to the gala and attempts to stop Helly from making a scheduled speech. Milchick reaches the security office and cuts his way through the makeshift restraints Dylan has placed on the door. Helly gets onstage and tells the crowd of the innies' subjugation and torment. Irving arrives at Burt's house only to find he is already in a relationship. Mark finds a photo confirming Ms. Casey to be Gemma. He rushes to tell Devon, but is only able to say "She's alive!" before Milchick tackles Dylan, deactivating the overtime contingency and reverting the three to their outie state.

Based on the provided paragraph, it's not clear what is an "outie". However, based on this sentence, "He rushes to tell Devon, but is only able to say "She's alive!" before Milchick tackles Dylan, deactivating the overtime contingency and reverting the three to their outie state.", it seems like an outie is a state that a person can be in and that the state can be switched on by deactivating the overtime contingency.

closed_qa

### Instruction: What is an "outie" in the context of this paragraph? ### Context: Mark's innie awakens in Devon's home and finds himself hugging Cobel. While excusing himself to find Devon, he calls Cobel by name, alerting her that the overtime contingency has been activated. Cobel calls Milchick and has him check the security office. Mark privately reveals to Devon that he is in innie form; Devon tells him of Gemma's death, and learns that "Mrs. Selvig" is Mark's boss. Mark encourages Devon to report Lumon's misdeeds to the press as Lumon likely controls the police. Irving wakes up in his apartment, discovering his outie's paintings and background in the U.S. Navy, and finds a map and employee directory in the closet which he uses to locate Burt. Helly wakes up at a Lumon gala where she learns that her outie is Helena Eagan – daughter of Lumon CEO Jame Eagan – who underwent severance to build public support for legalizing the procedure. Cobel races to the gala and attempts to stop Helly from making a scheduled speech. Milchick reaches the security office and cuts his way through the makeshift restraints Dylan has placed on the door. Helly gets onstage and tells the crowd of the innies' subjugation and torment. Irving arrives at Burt's house only to find he is already in a relationship. Mark finds a photo confirming Ms. Casey to be Gemma. He rushes to tell Devon, but is only able to say "She's alive!" before Milchick tackles Dylan, deactivating the overtime contingency and reverting the three to their outie state. ### Answer: Based on the provided paragraph, it's not clear what is an "outie". However, based on this sentence, "He rushes to tell Devon, but is only able to say "She's alive!" before Milchick tackles Dylan, deactivating the overtime contingency and reverting the three to their outie state.", it seems like an outie is a state that a person can be in and that the state can be switched on by deactivating the overtime contingency.</s>

How old was Stefan Richarz when he received his phD?

Stefan Richarz (25 November 1874 – 13 July 1934) was a German priest, missionary and geologist. Richarz was born in Richrath near Cologne, Germany in 1874. He joined the Divine Word Missionaries in 1893 at Steyl, Netherlands. He studied theology in the school of the order Sankt Gabriel in Maria Enzersdorf near Mödling and received his ordination to the priesthood in 1901. Richarz studied geology, paleontology, petrology and chemistry at the University of Vienna and later mineralogy, philosophy and geology at the University of Munich. He received his phD for work with Ernst Weinschenk and Ernst Freiherr Stromer von Reichenbach in 1919 from the University of Munich on basalts from a quarry near Groschlattengrün. In the following years he taught geology and astronomy at the school of the order Sankt Gabriel. In 1921 he changed to the school of the Divine Word Missionaries in Techny, Illinois where he lectured on geology, chemistry, mathematics and astronomy. In 1933 Richarz became dean of the science department of the Catholic University of Peking. In his first year, he went on a geological field trip to Mengyin County, South Shantung, China where he died 13. July, 1934.

Stefan was 45 years old in 1919 when he received his phD from University of Munich, given he was born in 1874.

closed_qa

### Instruction: How old was Stefan Richarz when he received his phD? ### Context: Stefan Richarz (25 November 1874 – 13 July 1934) was a German priest, missionary and geologist. Richarz was born in Richrath near Cologne, Germany in 1874. He joined the Divine Word Missionaries in 1893 at Steyl, Netherlands. He studied theology in the school of the order Sankt Gabriel in Maria Enzersdorf near Mödling and received his ordination to the priesthood in 1901. Richarz studied geology, paleontology, petrology and chemistry at the University of Vienna and later mineralogy, philosophy and geology at the University of Munich. He received his phD for work with Ernst Weinschenk and Ernst Freiherr Stromer von Reichenbach in 1919 from the University of Munich on basalts from a quarry near Groschlattengrün. In the following years he taught geology and astronomy at the school of the order Sankt Gabriel. In 1921 he changed to the school of the Divine Word Missionaries in Techny, Illinois where he lectured on geology, chemistry, mathematics and astronomy. In 1933 Richarz became dean of the science department of the Catholic University of Peking. In his first year, he went on a geological field trip to Mengyin County, South Shantung, China where he died 13. July, 1934. ### Answer: Stefan was 45 years old in 1919 when he received his phD from University of Munich, given he was born in 1874.</s>

How many world championships has Max Verstappen won?

After winning the 2021 Abu Dhabi Grand Prix, Verstappen became the first Dutch driver to win the Formula One World Championship, and the 34th Formula One World Drivers' Champion. He won his second consecutive Formula One championship the next season.

Max Verstappen has won 2 Formula One World Championships. He won his first one in 2021 at the Abu Dhabi Grand Prix. In 2022 he won his second consecutive Formula One championship As of the 3rd race of the 2023 season, he is leading the World Championship with 69 points.

closed_qa

### Instruction: How many world championships has Max Verstappen won? ### Context: After winning the 2021 Abu Dhabi Grand Prix, Verstappen became the first Dutch driver to win the Formula One World Championship, and the 34th Formula One World Drivers' Champion. He won his second consecutive Formula One championship the next season. ### Answer: Max Verstappen has won 2 Formula One World Championships. He won his first one in 2021 at the Abu Dhabi Grand Prix. In 2022 he won his second consecutive Formula One championship As of the 3rd race of the 2023 season, he is leading the World Championship with 69 points.</s>

When was the first idea of mobile phone developed, and was it created or commercialized at that time?

A handheld mobile radio telephone service was envisioned in the early stages of radio engineering. In 1917, Finnish inventor Eric Tigerstedt filed a patent for a "pocket-size folding telephone with a very thin carbon microphone". Early predecessors of cellular phones included analog radio communications from ships and trains. The race to create truly portable telephone devices began after World War II, with developments taking place in many countries. The advances in mobile telephony have been traced in successive "generations", starting with the early zeroth-generation (0G) services, such as Bell System's Mobile Telephone Service and its successor, the Improved Mobile Telephone Service. These 0G systems were not cellular, supported few simultaneous calls, and were very expensive.

The early idea of mobile phone goes back to the early stages of radio engineering. It was in 1917 that a Finnish inventor Eric Tigerstedt filed a patent for a "pocket-size folding telephone with a very thin carbon microphone". No, the real handheld mobile radio telephones were not created or commercialized at that time. It was after World War II that the race to create truly portable telephone devices began with developments taking place in many countries.

closed_qa

### Instruction: When was the first idea of mobile phone developed, and was it created or commercialized at that time? ### Context: A handheld mobile radio telephone service was envisioned in the early stages of radio engineering. In 1917, Finnish inventor Eric Tigerstedt filed a patent for a "pocket-size folding telephone with a very thin carbon microphone". Early predecessors of cellular phones included analog radio communications from ships and trains. The race to create truly portable telephone devices began after World War II, with developments taking place in many countries. The advances in mobile telephony have been traced in successive "generations", starting with the early zeroth-generation (0G) services, such as Bell System's Mobile Telephone Service and its successor, the Improved Mobile Telephone Service. These 0G systems were not cellular, supported few simultaneous calls, and were very expensive. ### Answer: The early idea of mobile phone goes back to the early stages of radio engineering. It was in 1917 that a Finnish inventor Eric Tigerstedt filed a patent for a "pocket-size folding telephone with a very thin carbon microphone". No, the real handheld mobile radio telephones were not created or commercialized at that time. It was after World War II that the race to create truly portable telephone devices began with developments taking place in many countries.</s>

Is the glass ceiling real?

A glass ceiling is a metaphor usually applied to women, used to represent an invisible barrier that prevents a given demographic from rising beyond a certain level in a hierarchy. No matter how invisible the glass ceiling is expressed, it is actually a difficult obstacle to overcome. The metaphor was first used by feminists in reference to barriers in the careers of high-achieving women. It was coined by Marilyn Loden during a speech in 1978. In the United States, the concept is sometimes extended to refer to racial inequality in the United States. Minority women in white-majority countries often find the most difficulty in "breaking the glass ceiling" because they lie at the intersection of two historically marginalized groups: women and people of color. East Asian and East Asian American news outlets have coined the term "bamboo ceiling" to refer to the obstacles that all East Asian Americans face in advancing their careers. Similarly, a multitude of barriers that refugees and asylum seekers face in their search for meaningful employment is referred to as canvas ceiling.

While it is not real as a physical object, it is considered real metaphorically, as it represents an invisible barrier that hinder women from rising beyond a certain organizational or societal hierarchy.

closed_qa

### Instruction: Is the glass ceiling real? ### Context: A glass ceiling is a metaphor usually applied to women, used to represent an invisible barrier that prevents a given demographic from rising beyond a certain level in a hierarchy. No matter how invisible the glass ceiling is expressed, it is actually a difficult obstacle to overcome. The metaphor was first used by feminists in reference to barriers in the careers of high-achieving women. It was coined by Marilyn Loden during a speech in 1978. In the United States, the concept is sometimes extended to refer to racial inequality in the United States. Minority women in white-majority countries often find the most difficulty in "breaking the glass ceiling" because they lie at the intersection of two historically marginalized groups: women and people of color. East Asian and East Asian American news outlets have coined the term "bamboo ceiling" to refer to the obstacles that all East Asian Americans face in advancing their careers. Similarly, a multitude of barriers that refugees and asylum seekers face in their search for meaningful employment is referred to as canvas ceiling. ### Answer: While it is not real as a physical object, it is considered real metaphorically, as it represents an invisible barrier that hinder women from rising beyond a certain organizational or societal hierarchy.</s>

What is Sinking Sand?

Quicksand, also known as sinking sand, is a colloid consisting of fine granular material (such as sand, silt or clay) and water. It forms in saturated loose sand when the sand is suddenly agitated. When water in the sand cannot escape, it creates a liquefied soil that loses strength and cannot support weight. Quicksand can form in standing water or in upward flowing water (as from an artesian spring). In the case of upward flowing water, forces oppose the force of gravity and suspend the soil particles.

Sinking Sand is most commonly known as Quicksand.

closed_qa

### Instruction: What is Sinking Sand? ### Context: Quicksand, also known as sinking sand, is a colloid consisting of fine granular material (such as sand, silt or clay) and water. It forms in saturated loose sand when the sand is suddenly agitated. When water in the sand cannot escape, it creates a liquefied soil that loses strength and cannot support weight. Quicksand can form in standing water or in upward flowing water (as from an artesian spring). In the case of upward flowing water, forces oppose the force of gravity and suspend the soil particles. ### Answer: Sinking Sand is most commonly known as Quicksand.</s>

Name someone who helped to stash national treasures during a war, so irreplaceable items would not fall into the hands of the enemy or become lost

Evdokia Reshetnik was a Ukrainian zoologist and ecologist. She was a specialist in the mole-rats and ground squirrels of Ukraine, and was the first scientist to describe the sandy blind mole-rat of southern Ukraine in 1939. She played a key role in keeping the National Museum of Natural History at the National Academy of Sciences of Ukraine operable in the inter-war and immediate post-war periods, in spite of arrests by both the Gestapo and Soviet authorities. She was one of the people involved in hiding specimens of the museum to prevent them being taken by the Germans. She is known for arguing that ecology, species distribution, populations, utility, and variability, should be weighed before making determinations that labeled certain animals as pests and harmful to the environment. Though she was responsible for maintaining the historiography of scientific development in Ukraine, her own legacy was lost until the twenty-first century.

Evdokia Reshetnik, a Ukranian zoologist and ecologist, helped squirrel away natural history artifacts from a Ukranian museum of Natural History, keeping them from falling into the hands of the Germans. Ironically, the story of her courage was nearly lost, only resurfacing in the twenty-first century.

closed_qa

### Instruction: Name someone who helped to stash national treasures during a war, so irreplaceable items would not fall into the hands of the enemy or become lost ### Context: Evdokia Reshetnik was a Ukrainian zoologist and ecologist. She was a specialist in the mole-rats and ground squirrels of Ukraine, and was the first scientist to describe the sandy blind mole-rat of southern Ukraine in 1939. She played a key role in keeping the National Museum of Natural History at the National Academy of Sciences of Ukraine operable in the inter-war and immediate post-war periods, in spite of arrests by both the Gestapo and Soviet authorities. She was one of the people involved in hiding specimens of the museum to prevent them being taken by the Germans. She is known for arguing that ecology, species distribution, populations, utility, and variability, should be weighed before making determinations that labeled certain animals as pests and harmful to the environment. Though she was responsible for maintaining the historiography of scientific development in Ukraine, her own legacy was lost until the twenty-first century. ### Answer: Evdokia Reshetnik, a Ukranian zoologist and ecologist, helped squirrel away natural history artifacts from a Ukranian museum of Natural History, keeping them from falling into the hands of the Germans. Ironically, the story of her courage was nearly lost, only resurfacing in the twenty-first century.</s>

What is Venture Capital?

Venture capital (commonly abbreviated as VC) is a form of private equity financing that is provided by venture capital firms or funds to startups, early-stage, and emerging companies that have been deemed to have high growth potential or which have demonstrated high growth (in terms of number of employees, annual revenue, scale of operations, etc). Venture capital firms or funds invest in these early-stage companies in exchange for equity, or an ownership stake. Venture capitalists take on the risk of financing risky start-ups in the hopes that some of the companies they support will become successful. Because startups face high uncertainty, VC investments have high rates of failure. The start-ups are usually based on an innovative technology or business model and they are usually from high technology industries, such as information technology (IT), clean technology or biotechnology.

Venture capital firms invest in early-stage companies in exchange for equity.

closed_qa

### Instruction: What is Venture Capital? ### Context: Venture capital (commonly abbreviated as VC) is a form of private equity financing that is provided by venture capital firms or funds to startups, early-stage, and emerging companies that have been deemed to have high growth potential or which have demonstrated high growth (in terms of number of employees, annual revenue, scale of operations, etc). Venture capital firms or funds invest in these early-stage companies in exchange for equity, or an ownership stake. Venture capitalists take on the risk of financing risky start-ups in the hopes that some of the companies they support will become successful. Because startups face high uncertainty, VC investments have high rates of failure. The start-ups are usually based on an innovative technology or business model and they are usually from high technology industries, such as information technology (IT), clean technology or biotechnology. ### Answer: Venture capital firms invest in early-stage companies in exchange for equity.</s>

Why was there a lockout during the 1998-1999 NBA season?

The 1998–99 NBA season was the Hawks' 50th season in the National Basketball Association, and 31st season in Atlanta. On March 23, 1998, the owners of all 29 NBA teams voted 27–2 to reopen the league's collective bargaining agreement, seeking changes to the league's salary cap system, and a ceiling on individual player salaries. The National Basketball Players Association (NBPA) opposed to the owners' plan, and wanted raises for players who earned the league's minimum salary. After both sides failed to reach an agreement, the owners called for a lockout, which began on July 1, 1998, putting a hold on all team trades, free agent signings and training camp workouts, and cancelling many NBA regular season and preseason games. Due to the lockout, the NBA All-Star Game, which was scheduled to be played in Philadelphia on February 14, 1999, was also cancelled. However, on January 6, 1999, NBA commissioner David Stern, and NBPA director Billy Hunter finally reached an agreement to end the lockout. The deal was approved by both the players and owners, and was signed on January 20, ending the lockout after 204 days. The regular season began on February 5, and was cut short to just 50 games instead of the regular 82-game schedule

The players and owners failed to reach an agreement on salaries.

closed_qa

### Instruction: Why was there a lockout during the 1998-1999 NBA season? ### Context: The 1998–99 NBA season was the Hawks' 50th season in the National Basketball Association, and 31st season in Atlanta. On March 23, 1998, the owners of all 29 NBA teams voted 27–2 to reopen the league's collective bargaining agreement, seeking changes to the league's salary cap system, and a ceiling on individual player salaries. The National Basketball Players Association (NBPA) opposed to the owners' plan, and wanted raises for players who earned the league's minimum salary. After both sides failed to reach an agreement, the owners called for a lockout, which began on July 1, 1998, putting a hold on all team trades, free agent signings and training camp workouts, and cancelling many NBA regular season and preseason games. Due to the lockout, the NBA All-Star Game, which was scheduled to be played in Philadelphia on February 14, 1999, was also cancelled. However, on January 6, 1999, NBA commissioner David Stern, and NBPA director Billy Hunter finally reached an agreement to end the lockout. The deal was approved by both the players and owners, and was signed on January 20, ending the lockout after 204 days. The regular season began on February 5, and was cut short to just 50 games instead of the regular 82-game schedule ### Answer: The players and owners failed to reach an agreement on salaries.</s>

Where is the Bulgan Volcanic Field located?

Khanuy-Gol (also known as Bulgan Volcanic Field, Chanuj Gol Hanui Gol or Hanuy Gol) is a volcanic field in Mongolia. Khanuy-Gol is located in the northern Hangai range, north of the settlement of Bulgan. Topographic map It covers a surface area of 3,500 square kilometres (1,400 sq mi) 150 kilometres (93 mi) southwest of Ulanbator. Among the 10 cones with heights of 30–190 metres (98–623 ft) that make up the field are Baga Togo Uul/Bogo-Togo-Ula (meaning "Little Togo Mountain", 28 metres (92 ft) high, 48°55.79′N 102°46.22′E to 48°55.34′N 102°45.75′E), Ikh Togo Uul/Ikha-Togo-Ula (meaning "Great Togo mountain", 219 metres (719 ft) high, 48°59.53′N 102°44.48′E), Togo, Urun Dush, and Uran Uul. This cone is the highest of the field, with a height of 280 metres (920 ft). Baga Togo Uul has one maar-like vent among its three vents, these vents are named Javalach, Togo and Tulga. Both Togo cones have a vegetation cover.

The Bulgan Volcanic Field is located in Mongolia, in the northern Hangai range.

closed_qa

### Instruction: Where is the Bulgan Volcanic Field located? ### Context: Khanuy-Gol (also known as Bulgan Volcanic Field, Chanuj Gol Hanui Gol or Hanuy Gol) is a volcanic field in Mongolia. Khanuy-Gol is located in the northern Hangai range, north of the settlement of Bulgan. Topographic map It covers a surface area of 3,500 square kilometres (1,400 sq mi) 150 kilometres (93 mi) southwest of Ulanbator. Among the 10 cones with heights of 30–190 metres (98–623 ft) that make up the field are Baga Togo Uul/Bogo-Togo-Ula (meaning "Little Togo Mountain", 28 metres (92 ft) high, 48°55.79′N 102°46.22′E to 48°55.34′N 102°45.75′E), Ikh Togo Uul/Ikha-Togo-Ula (meaning "Great Togo mountain", 219 metres (719 ft) high, 48°59.53′N 102°44.48′E), Togo, Urun Dush, and Uran Uul. This cone is the highest of the field, with a height of 280 metres (920 ft). Baga Togo Uul has one maar-like vent among its three vents, these vents are named Javalach, Togo and Tulga. Both Togo cones have a vegetation cover. ### Answer: The Bulgan Volcanic Field is located in Mongolia, in the northern Hangai range.</s>

Does Grigorievna Nazarenko live in Moscow?

Professor Tatyana Grigorievna Nazarenko is one of the leading Russian contemporary painters who has set new directions in Russian Art and Painting starting from the 1970s. She was born in Moscow where she still lives and works.

Yes, she lives in Moscow

closed_qa

### Instruction: Does Grigorievna Nazarenko live in Moscow? ### Context: Professor Tatyana Grigorievna Nazarenko is one of the leading Russian contemporary painters who has set new directions in Russian Art and Painting starting from the 1970s. She was born in Moscow where she still lives and works. ### Answer: Yes, she lives in Moscow</s>

What new economies developed because of the anti-slave treaties?

In West Africa, the decline of the Atlantic slave trade in the 1820s caused dramatic economic shifts in local polities. The gradual decline of slave-trading, prompted by a lack of demand for slaves in the New World, increasing anti-slavery legislation in Europe and America, and the British Royal Navy's increasing presence off the West African coast, obliged African states to adopt new economies. Between 1808 and 1860, the British West Africa Squadron seized approximately 1,600 slave ships and freed 150,000 Africans who were aboard. Action was also taken against African leaders who refused to agree to British treaties to outlaw the trade, for example against "the usurping King of Lagos", deposed in 1851. Anti-slavery treaties were signed with over 50 African rulers. The largest powers of West Africa (the Asante Confederacy, the Kingdom of Dahomey, and the Oyo Empire) adopted different ways of adapting to the shift. Asante and Dahomey concentrated on the development of "legitimate commerce" in the form of palm oil, cocoa, timber and gold, forming the bedrock of West Africa's modern export trade. The Oyo Empire, unable to adapt, collapsed into civil wars.

Instead of exporting slaves, Africa began exporting palm oil, cocoa, timber, and gold.

closed_qa

### Instruction: What new economies developed because of the anti-slave treaties? ### Context: In West Africa, the decline of the Atlantic slave trade in the 1820s caused dramatic economic shifts in local polities. The gradual decline of slave-trading, prompted by a lack of demand for slaves in the New World, increasing anti-slavery legislation in Europe and America, and the British Royal Navy's increasing presence off the West African coast, obliged African states to adopt new economies. Between 1808 and 1860, the British West Africa Squadron seized approximately 1,600 slave ships and freed 150,000 Africans who were aboard. Action was also taken against African leaders who refused to agree to British treaties to outlaw the trade, for example against "the usurping King of Lagos", deposed in 1851. Anti-slavery treaties were signed with over 50 African rulers. The largest powers of West Africa (the Asante Confederacy, the Kingdom of Dahomey, and the Oyo Empire) adopted different ways of adapting to the shift. Asante and Dahomey concentrated on the development of "legitimate commerce" in the form of palm oil, cocoa, timber and gold, forming the bedrock of West Africa's modern export trade. The Oyo Empire, unable to adapt, collapsed into civil wars. ### Answer: Instead of exporting slaves, Africa began exporting palm oil, cocoa, timber, and gold.</s>

Based on the paragraph below, the failure to uphold the commitments outlined in Magna Carta lead to what war?

Magna Carta Libertatum (Medieval Latin for "Great Charter of Freedoms"), commonly called Magna Carta (also Magna Charta; "Great Charter"), is a royal charter of rights agreed to by King John of England at Runnymede, near Windsor, on 15 June 1215. First drafted by the Archbishop of Canterbury, Cardinal Stephen Langton, to make peace between the unpopular king and a group of rebel barons, it promised the protection of church rights, protection for the barons from illegal imprisonment, access to swift justice, and limitations on feudal payments to the Crown, to be implemented through a council of 25 barons. Neither side stood behind their commitments, and the charter was annulled by Pope Innocent III, leading to the First Barons' War.

First Barons' War

closed_qa

### Instruction: Based on the paragraph below, the failure to uphold the commitments outlined in Magna Carta lead to what war? ### Context: Magna Carta Libertatum (Medieval Latin for "Great Charter of Freedoms"), commonly called Magna Carta (also Magna Charta; "Great Charter"), is a royal charter of rights agreed to by King John of England at Runnymede, near Windsor, on 15 June 1215. First drafted by the Archbishop of Canterbury, Cardinal Stephen Langton, to make peace between the unpopular king and a group of rebel barons, it promised the protection of church rights, protection for the barons from illegal imprisonment, access to swift justice, and limitations on feudal payments to the Crown, to be implemented through a council of 25 barons. Neither side stood behind their commitments, and the charter was annulled by Pope Innocent III, leading to the First Barons' War. ### Answer: First Barons' War</s>

What book was the musical Hamilton based on?

Hamilton is a sung-and-rapped-through musical with music, lyrics, and a book by Lin-Manuel Miranda, based on the 2004 book Alexander Hamilton by Ron Chernow. The musical tells the story of American Founding Father Alexander Hamilton. Composed over a seven-year period from 2008 to 2015, Miranda says Hamilton was originally a hip hop concept album in his head. The show draws heavily from hip hop, as well as R&B, pop, soul, and traditional-style show tunes. It casts non-white actors as the Founding Fathers of the United States and other historical figures. Miranda described Hamilton as about "America then, as told by America now."

Hamilton, the musical was based on the 2004 book Alexander Hamilton by Ron Chernow.

closed_qa

### Instruction: What book was the musical Hamilton based on? ### Context: Hamilton is a sung-and-rapped-through musical with music, lyrics, and a book by Lin-Manuel Miranda, based on the 2004 book Alexander Hamilton by Ron Chernow. The musical tells the story of American Founding Father Alexander Hamilton. Composed over a seven-year period from 2008 to 2015, Miranda says Hamilton was originally a hip hop concept album in his head. The show draws heavily from hip hop, as well as R&B, pop, soul, and traditional-style show tunes. It casts non-white actors as the Founding Fathers of the United States and other historical figures. Miranda described Hamilton as about "America then, as told by America now." ### Answer: Hamilton, the musical was based on the 2004 book Alexander Hamilton by Ron Chernow.</s>

Given this paragraph about triathlon, who founded ironman

On Wednesday, September 25, 1974, the race started. It began with a run of a 4.8 km (3 mi) loop, followed by biking twice around Fiesta Island for a total of 8.0 km (5 mi). Entrants would then get off the bikes, take their shoes off and run into the water to swim to the mainland. That was followed by running in bare feet, then swimming again along the bay, then one last swim up to the entrance of Fiesta Island, and a final crawl up a steep dirt bank to finish. Most participants were not skilled swimmers, so Johnstone recruited his 13-year-old son to float on his surfboard and act as lifeguard. Some participants took longer than expected, and it began to get dark as they finished their swims. Shanahan recalls they pulled up a few cars and turned on the headlights so the athletes could see. Johnstone and Shanahan were surprised by the large number of entrants (46), mainly coming from local running clubs. Two notable entrants, Judy and John Collins, would four years later found the event which brought international attention to the new sport: the Hawaii Ironman

Ironman was founded by Judy and John Collins four years after the first known modern day triathlon on Wednesday, September 25th, 1974.

closed_qa

### Instruction: Given this paragraph about triathlon, who founded ironman ### Context: On Wednesday, September 25, 1974, the race started. It began with a run of a 4.8 km (3 mi) loop, followed by biking twice around Fiesta Island for a total of 8.0 km (5 mi). Entrants would then get off the bikes, take their shoes off and run into the water to swim to the mainland. That was followed by running in bare feet, then swimming again along the bay, then one last swim up to the entrance of Fiesta Island, and a final crawl up a steep dirt bank to finish. Most participants were not skilled swimmers, so Johnstone recruited his 13-year-old son to float on his surfboard and act as lifeguard. Some participants took longer than expected, and it began to get dark as they finished their swims. Shanahan recalls they pulled up a few cars and turned on the headlights so the athletes could see. Johnstone and Shanahan were surprised by the large number of entrants (46), mainly coming from local running clubs. Two notable entrants, Judy and John Collins, would four years later found the event which brought international attention to the new sport: the Hawaii Ironman ### Answer: Ironman was founded by Judy and John Collins four years after the first known modern day triathlon on Wednesday, September 25th, 1974.</s>

What is Magical Thinking?

Magical thinking, or superstitious thinking, is the belief that unrelated events are causally connected despite the absence of any plausible causal link between them, particularly as a result of supernatural effects. Examples include the idea that personal thoughts can influence the external world without acting on them, or that objects must be causally connected if they resemble each other or have come into contact with each other in the past. Magical thinking is a type of fallacious thinking and is a common sour

Magical thinking is the belief that unrelated events are causally connected despite the absence of any plausible causal link between them.

closed_qa

### Instruction: What is Magical Thinking? ### Context: Magical thinking, or superstitious thinking, is the belief that unrelated events are causally connected despite the absence of any plausible causal link between them, particularly as a result of supernatural effects. Examples include the idea that personal thoughts can influence the external world without acting on them, or that objects must be causally connected if they resemble each other or have come into contact with each other in the past. Magical thinking is a type of fallacious thinking and is a common sour ### Answer: Magical thinking is the belief that unrelated events are causally connected despite the absence of any plausible causal link between them.</s>

What is the negative side effect of the "fire power" on Fargus?

Pandemonium 2 is a psychedelic 2.5D game; specifically, it renders characters and environments with polygons and uses a 3D camera to create the appearance of 3-D, while gameplay is actually on a 2-D plane. Players can choose to be either Nikki or Fargus - who each have different specialties - with the option to change for each level. The player characters' abilities have been expanded over those in Pandemonium! with the ability to climb ropes, crawl, and pull themselves up ledges. During the quest, players can earn extra lives by collecting treasure. Unique powers collected during gameplay may replace, extend or add to previous powers, depending on which character is in play and which power has been obtained. The characters handle the unique powers differently. For instance, collecting the "fire power" allows Nikki to shoot destructive fireballs, while it grants Fargus invincibility and a deadly touch, but requires him to constantly move forward. Machines and equipment are also available throughout the game, although they are tied to certain areas.

It requires him to constantly move forward.

closed_qa

### Instruction: What is the negative side effect of the "fire power" on Fargus? ### Context: Pandemonium 2 is a psychedelic 2.5D game; specifically, it renders characters and environments with polygons and uses a 3D camera to create the appearance of 3-D, while gameplay is actually on a 2-D plane. Players can choose to be either Nikki or Fargus - who each have different specialties - with the option to change for each level. The player characters' abilities have been expanded over those in Pandemonium! with the ability to climb ropes, crawl, and pull themselves up ledges. During the quest, players can earn extra lives by collecting treasure. Unique powers collected during gameplay may replace, extend or add to previous powers, depending on which character is in play and which power has been obtained. The characters handle the unique powers differently. For instance, collecting the "fire power" allows Nikki to shoot destructive fireballs, while it grants Fargus invincibility and a deadly touch, but requires him to constantly move forward. Machines and equipment are also available throughout the game, although they are tied to certain areas. ### Answer: It requires him to constantly move forward.</s>

What is the male population in Madaria?

The village has a population of 1473 of which 728 are males while 745 are females as per Population Census 2011. The number of children with age 0-6 is 174 which makes up 11.81% of total population of village. Average Sex Ratio of Madaria village is 1023 which is higher than Uttar Pradesh state average of 912.

The male population in Madaria is 728.

closed_qa

### Instruction: What is the male population in Madaria? ### Context: The village has a population of 1473 of which 728 are males while 745 are females as per Population Census 2011. The number of children with age 0-6 is 174 which makes up 11.81% of total population of village. Average Sex Ratio of Madaria village is 1023 which is higher than Uttar Pradesh state average of 912. ### Answer: The male population in Madaria is 728.</s>

When was Mahatma Gandhi born?

Mohandas Karamchand Gandhi (/ˈɡɑːndi, ˈɡændi/ GA(H)N-dee, Gujarati: [ˈmoɦəndɑs ˈkəɾəmtʃənd ˈɡɑ̃dʱi]; 2 October 1869 – 30 January 1948) was an Indian lawyer, anti-colonial nationalist and political ethicist. Employing nonviolent resistance, he led the successful campaign for India's independence from British rule. He inspired movements for civil rights and freedom across the world. The honorific Mahātmā (Sanskrit: "great-souled", "venerable"), first applied to him in 1914 in South Africa, is now used throughout the world.

Mahatma Gandhi was born on October 2, 1869

closed_qa

### Instruction: When was Mahatma Gandhi born? ### Context: Mohandas Karamchand Gandhi (/ˈɡɑːndi, ˈɡændi/ GA(H)N-dee, Gujarati: [ˈmoɦəndɑs ˈkəɾəmtʃənd ˈɡɑ̃dʱi]; 2 October 1869 – 30 January 1948) was an Indian lawyer, anti-colonial nationalist and political ethicist. Employing nonviolent resistance, he led the successful campaign for India's independence from British rule. He inspired movements for civil rights and freedom across the world. The honorific Mahātmā (Sanskrit: "great-souled", "venerable"), first applied to him in 1914 in South Africa, is now used throughout the world. ### Answer: Mahatma Gandhi was born on October 2, 1869</s>

Based on the given text, do beavers eat wood or do they only chop down trees for dams?

Beavers (genus Castor) are large, semiaquatic rodents of the Northern Hemisphere. There are two existing species: the North American beaver (Castor canadensis) and the Eurasian beaver (C. fiber). Beavers are the second-largest living rodents, after capybaras, weighing up to 50 kg (110 lb). They have stout bodies with large heads, long chisel-like incisors, brown or gray fur, hand-like front feet, webbed back feet, and tails that are flat and scaly. The two species differ in skull and tail shape and fur color. Beavers can be found in a number of freshwater habitats, such as rivers, streams, lakes and ponds. They are herbivorous, consuming tree bark, aquatic plants, grasses and sedges. Beavers build dams and lodges using tree branches, vegetation, rocks and mud; they chew down trees for building material. Dams restrict water flow, and lodges serve as shelters. Their infrastructure creates wetlands used by many other species, and because of their effect on other organisms in the ecosystem, beavers are considered a keystone species.

Beavers are herbivorous and are known to consume tree bark as part of their diet. However, beavers often build dams and lodges using fallen tree branches and other vegetation that they chew with their teeth in order to make materials for restricting water flow and shelter.

closed_qa

### Instruction: Based on the given text, do beavers eat wood or do they only chop down trees for dams? ### Context: Beavers (genus Castor) are large, semiaquatic rodents of the Northern Hemisphere. There are two existing species: the North American beaver (Castor canadensis) and the Eurasian beaver (C. fiber). Beavers are the second-largest living rodents, after capybaras, weighing up to 50 kg (110 lb). They have stout bodies with large heads, long chisel-like incisors, brown or gray fur, hand-like front feet, webbed back feet, and tails that are flat and scaly. The two species differ in skull and tail shape and fur color. Beavers can be found in a number of freshwater habitats, such as rivers, streams, lakes and ponds. They are herbivorous, consuming tree bark, aquatic plants, grasses and sedges. Beavers build dams and lodges using tree branches, vegetation, rocks and mud; they chew down trees for building material. Dams restrict water flow, and lodges serve as shelters. Their infrastructure creates wetlands used by many other species, and because of their effect on other organisms in the ecosystem, beavers are considered a keystone species. ### Answer: Beavers are herbivorous and are known to consume tree bark as part of their diet. However, beavers often build dams and lodges using fallen tree branches and other vegetation that they chew with their teeth in order to make materials for restricting water flow and shelter.</s>

How many years has it been since the city of Calcutta was officially renamed Kolkata?

Kolkata also known as Calcutta (the official name until 2001) is the capital of the Indian state of West Bengal, on the eastern bank of the Hooghly River 80 km (50 mi) west of the border with Bangladesh. It is the primary business, commercial, and financial hub of Eastern India and the main port of communication for North-East India. According to the 2011 Indian census, Kolkata is the seventh-most populous city in India, with a population of 45 lakh (4.5 million) residents within the city. It is a part of Kolkata Metropolitan Area (or known as Greater Kolkata) which has a population of over 1.41 crore (14.1 million) residents making it the third-most populous metropolitan area in India. In 2021, the Kolkata metropolitan area crossed 1.5 crore (15 million) registered voters. The Port of Kolkata is India's oldest operating port and its sole major riverine port. Kolkata is regarded as the cultural capital of India. Kolkata is the second largest Bengali-speaking city after Dhaka. It has the highest number of nobel laureates among all cities in India.

It has been 22 years since Calcutta was renamed Kolkata.

closed_qa

### Instruction: How many years has it been since the city of Calcutta was officially renamed Kolkata? ### Context: Kolkata also known as Calcutta (the official name until 2001) is the capital of the Indian state of West Bengal, on the eastern bank of the Hooghly River 80 km (50 mi) west of the border with Bangladesh. It is the primary business, commercial, and financial hub of Eastern India and the main port of communication for North-East India. According to the 2011 Indian census, Kolkata is the seventh-most populous city in India, with a population of 45 lakh (4.5 million) residents within the city. It is a part of Kolkata Metropolitan Area (or known as Greater Kolkata) which has a population of over 1.41 crore (14.1 million) residents making it the third-most populous metropolitan area in India. In 2021, the Kolkata metropolitan area crossed 1.5 crore (15 million) registered voters. The Port of Kolkata is India's oldest operating port and its sole major riverine port. Kolkata is regarded as the cultural capital of India. Kolkata is the second largest Bengali-speaking city after Dhaka. It has the highest number of nobel laureates among all cities in India. ### Answer: It has been 22 years since Calcutta was renamed Kolkata.</s>

When was the Stansfeld's death

Stansfeld began his career as a civil servant in HM Customs and Excise. In 1877, he moved to Oxford, and later matriculated as a student at Exeter College, where he studied Medicine, attaining his BA in 1889, MA in 1893 and qualified as a doctor in 1897. In 1897 he started the Oxford Medical Misson in Bermondsey, London, where he founded the Stansfeld Oxford & Bermondsey Club in the same year. In 1909, he decided to take Holy Orders and studied part-time at Wycliffe Hall, Oxford. He was appointed Vicar of St Anne's Church, Thoburn Square, Bermondsey in 1910, and then returned to Oxford in 1912 as Rector of St Ebbe's, Oxford then a slum district until his retirement in 1926. Stansfeld died at Spelsbury, Oxfordshire, aged 85 in December 1939. He campaigned successfully for the erection of a children's playground and public baths in St Ebbe's. His philanthropy is commemorated by a blue plaque in Paradise Square, unveiled in June 2009.

Stansfeld died at Spelsbury, Oxfordshire, aged 85 in December 1939

closed_qa

### Instruction: When was the Stansfeld's death ### Context: Stansfeld began his career as a civil servant in HM Customs and Excise. In 1877, he moved to Oxford, and later matriculated as a student at Exeter College, where he studied Medicine, attaining his BA in 1889, MA in 1893 and qualified as a doctor in 1897. In 1897 he started the Oxford Medical Misson in Bermondsey, London, where he founded the Stansfeld Oxford & Bermondsey Club in the same year. In 1909, he decided to take Holy Orders and studied part-time at Wycliffe Hall, Oxford. He was appointed Vicar of St Anne's Church, Thoburn Square, Bermondsey in 1910, and then returned to Oxford in 1912 as Rector of St Ebbe's, Oxford then a slum district until his retirement in 1926. Stansfeld died at Spelsbury, Oxfordshire, aged 85 in December 1939. He campaigned successfully for the erection of a children's playground and public baths in St Ebbe's. His philanthropy is commemorated by a blue plaque in Paradise Square, unveiled in June 2009. ### Answer: Stansfeld died at Spelsbury, Oxfordshire, aged 85 in December 1939</s>

Since it began, how many years has FIVB not been held?

The FIVB Volleyball Men's Club World Championship is an international men's club volleyball competition organised by the Fédération Internationale de Volleyball (FIVB), the sport's global governing body. The competition was first contested in 1989 in Italy. It was not held between 1993 and 2008, but since 2009, the competition has been held every year, and has been hosted by Qatar and Brazil except in 2017 and 2018 where both hosted by Poland.

16 years. 2008-1993+1 = 16.

closed_qa

### Instruction: Since it began, how many years has FIVB not been held? ### Context: The FIVB Volleyball Men's Club World Championship is an international men's club volleyball competition organised by the Fédération Internationale de Volleyball (FIVB), the sport's global governing body. The competition was first contested in 1989 in Italy. It was not held between 1993 and 2008, but since 2009, the competition has been held every year, and has been hosted by Qatar and Brazil except in 2017 and 2018 where both hosted by Poland. ### Answer: 16 years. 2008-1993+1 = 16.</s>

Given this paragraph about Indiana Jones, tell me who starred in the franchise films with Harrison Ford

Indiana Jones is an American media franchise based on the adventures of Dr. Henry Walton "Indiana" Jones, Jr., a fictional professor of archaeology, that began in 1981 with the film Raiders of the Lost Ark. In 1984, a prequel, The Temple of Doom, was released, and in 1989, a sequel, The Last Crusade. A fourth film followed in 2008, titled The Kingdom of the Crystal Skull. A fifth and final film, titled The Dial of Destiny, is in production and is scheduled to be released in 2023. The series was created by George Lucas and stars Harrison Ford as Indiana Jones. The first four films were directed by Steven Spielberg, who worked closely with Lucas during their production. In 1992, the franchise expanded to a television series with The Young Indiana Jones Chronicles, portraying the character in his childhood and youth, and including adventures with his parents. Marvel Comics began publishing The Further Adventures of Indiana Jones in 1983, and Dark Horse Comics gained the comic book rights to the character in 1991. Novelizations of the films have been published, as well as many novels with original adventures, including a series of German novels by Wolfgang Hohlbein, twelve novels set before the films published by Bantam Books, and a series set during the character's childhood inspired by the television show. Numerous Indiana Jones video games have been released since 1982. Background During 1973, George Lucas wrote The Adventures of Indiana Smith. Like Star Wars, it was an opportunity to create a modern version of the movie serials of the 1930s and 1940s. Lucas discussed the concept with Philip Kaufman, who worked with him for several weeks and decided upon the Ark of the Covenant as the MacGuffin. The project was stalled when Clint Eastwood hired Kaufman to write The Outlaw Josey Wales. In May 1977, Lucas was in Maui, trying to escape the worldwide success of Star Wars. His friend and colleague Steven Spielberg was also there, on vacation from work on Close Encounters of the Third Kind. Spielberg told Lucas he was interested in making a James Bond film, but Lucas told him of an idea "better than James Bond", outlining the plot of Raiders of the Lost Ark. Spielberg loved it, calling it "a James Bond film without the hardware", and had the character's surname changed to Jones. Spielberg and Lucas made a deal with Paramount Pictures for five Indiana Jones films. Spielberg and Lucas aimed to make Indiana Jones and the Temple of Doom much darker, because of their personal moods following their respective breakups and divorces. Lucas made the film a prequel as he did not want the Nazis to be the villains again. He had ideas regarding the Monkey King and a haunted castle, but eventually created the Sankara Stones, that would be used in the film. He hired Willard Huyck and Gloria Katz to write the script as he knew of their interest in Indian culture. The major scenes that were dropped from Raiders of the Lost Ark were included in this film: an escape using a giant rolling gong as a shield, a fall out of a plane in a raft, and a mine cart chase. For the third film, Spielberg revisited the Monkey King and haunted castle concepts, before Lucas suggested the Holy Grail. Spielberg had previously rejected this as too ethereal, but then devised a father-son story and decided that "The Grail that everybody seeks could be a metaphor for a son seeking reconciliation with a father and a father seeking reconciliation with a son." Following the 1989 release of Indiana Jones and the Last Crusade, Lucas let the series end as he felt he could not think of a good plot device to drive the next installment and chose instead to produce The Young Indiana Jones Chronicles, which explored the character in his early years. Ford played Indiana in one episode, narrating his adventures in 1920 Chicago. When Lucas shot Ford's role in December 1992, he realized that the scene opened up the possibility of a film with an older Indiana set in the 1950s. The film could reflect a science fiction 1950s B-movie, with aliens as the plot device. Ford disliked the new angle, telling Lucas: "No way am I being in a Steven Spielberg movie like that." Spielberg himself, who depicted aliens in Close Encounters of the Third Kind and E.T. the Extra-Terrestrial, resisted it. Lucas devised a story, which Jeb Stuart turned into a script from October 1993 to May 1994. Lucas wanted Indiana to get married, which would allow Henry Jones Sr. to return, expressing concern over whether his son is happy with what he has accomplished. After learning that Joseph Stalin was interested in psychic warfare, Lucas decided to have Russians as the villains and the aliens to have psychic powers. Following Stuart's next draft, Lucas hired Last Crusade writer Jeffrey Boam to write the next three versions, the last of which was completed in March 1996. Three months later, Independence Day was released, and Spielberg told Lucas he would not make another alien invasion film (or at least not until War of the Worlds in 2005). Lucas decided to focus on the Star Wars prequels instead. In 2000, Spielberg's son asked when the next Indiana Jones film would be released, which made him interested in reviving the project. The same year, Ford, Lucas, Spielberg, Frank Marshall, and Kathleen Kennedy met during the American Film Institute's tribute to Ford, and decided they wanted to enjoy the experience of making an Indiana Jones film again. Spielberg also found returning to the series a respite from his many dark films during this period. Spielberg and Lucas discussed the central idea of a B-movie involving aliens, and Lucas suggested using crystal skulls to ground the idea. Lucas found these artifacts as fascinating as the Ark, and had intended to feature them for a Young Indiana Jones episode before the show's cancellation. M. Night Shyamalan was hired to write for an intended 2002 shoot, but he was overwhelmed by the task, and claimed it was difficult to get Ford, Spielberg, and Lucas to focus. Stephen Gaghan and Tom Stoppard were also approached. Frank Darabont, who wrote various Young Indiana Jones episodes, was hired to write in May 2002. His script, titled Indiana Jones and the City of Gods, was set in the 1950s, with ex-Nazis pursuing Jones. Spielberg conceived the idea because of real-life figures such as Juan Perón in Argentina, who allegedly protected Nazi war criminals. Darabont claimed Spielberg loved the script, but Lucas had issues with it, and decided to take over writing himself. Lucas and Spielberg acknowledged that the 1950s setting could not ignore the Cold War, and the Russians were more plausible villains. Spielberg decided he could not satirize the Nazis after directing Schindler's List, while Ford felt "We plum wore the Nazis out." Darabont's main contribution was reintroducing Marion Ravenwood as Indiana's love interest, but he gave them a 13-year-old daughter, which Spielberg decided was too similar to The Lost World: Jurassic Park. Jeff Nathanson met with Spielberg and Lucas in August 2004, and turned in the next drafts in October and November 2005, titled The Atomic Ants. David Koepp continued on from there, giving his script the subtitle Destroyer of Worlds, based on the J. Robert Oppenheimer quote. It was changed to Kingdom of the Crystal Skull, as Spielberg found this a more inviting title which actually named the plot device. Koepp wanted to depict the character of Mutt as a nerd, but Lucas refused, explaining he had to resemble Marlon Brando in The Wild One; "he needs to be what Indiana Jones's father thought of – the curse returns in the form of his own son – he's everything a father can't stand". Koepp collaborated with Lawrence Kasdan on the film's "love dialogue". The Walt Disney Company has owned the Indiana Jones intellectual property since its acquisition of Lucasfilm, the series' production company, in 2012, when Lucas sold it for $4 billion. Walt Disney Studios owns the distribution and marketing rights to future Indiana Jones films since 2013, with Paramount retaining the distribution rights to the first four films and receiving "financial participation" from any additional films. Disney will distribute the fifth film Indiana Jones and the Dial of Destiny, which will be directed by James Mangold and produced by Spielberg. Raiders of the Lost Ark (1981) Main article: Raiders of the Lost Ark The first film is set in 1936. Indiana Jones (Harrison Ford) is hired by government agents to locate the Ark of the Covenant, the gold plated chest containing the stone tablets Moses used to inscribe the Ten Commandments before the Nazi Germans steal it for themselves. The Nazis have teams searching for religious artefacts, including the Ark, which is rumored to make an army that carries the Ark before it invincible. The Nazis are being helped by Indiana's arch-rival and French archaeologist René Belloq (Paul Freeman). With the help of his former lover and tough bar owner Marion Ravenwood (Karen Allen) and his excavator friend Sallah (John Rhys-Davies), Indiana manages to recover the Ark in Egypt. The Nazis steal the Ark and capture Indiana and Marion. Belloq and the Nazis perform a ceremony to open the Ark, but when they do so, all they find inside is sand. Suddenly, spirits come out of the Ark and the Nazis are all killed by the Ark's wrath. Indiana and Marion, who survived by closing their eyes, manage to get the Ark to the United States, where it is stored in a secret government warehouse. Indiana Jones and the Temple of Doom (1984) Main article: Indiana Jones and the Temple of Doom The second film is a prequel set in 1935, a year before Raiders of the Lost Ark. Indiana escapes Chinese gangsters led by Lao Che with the help of singer/actress Willie Scott (Kate Capshaw) and his twelve-year-old sidekick Short Round (Ke Huy Quan). The trio crash-land in India, where they come across a Punjabi village whose children have been kidnapped. The Thuggee cult led by Mola Ram (Amrish Puri) has also taken the holy Sankara Stones, which they will use to take over the world. Indiana manages to overcome Mola Ram's evil power, rescues the children and returns the stones to their rightful place, overcoming his own mercenary nature. The film has been noted as an outlier in the franchise, as it does not feature Indy's university or any antagonistic political entity, and is less focused on archaeology, being presented as a dark movie with gross-out elements, human sacrifice and torture. Indiana Jones and the Last Crusade (1989) Main article: Indiana Jones and the Last Crusade The third film is set in 1938. Indiana and his friend Marcus Brody (Denholm Elliott) are assigned by American businessman Walter Donovan (Julian Glover) to find the Holy Grail. They are teamed up with Dr. Elsa Schneider (Alison Doody), following on from where Indiana's estranged father Henry (Sean Connery) left off before he disappeared. It transpires that Donovan and Elsa are in league with the Nazis, who captured Henry Jones in order to get Indiana to help them find the Grail. However, Indiana recovers his father's diary filled with his research, and manages to rescue him before finding the location of the Grail. Both Donovan and Elsa fall to the temptation of the Grail, while Indiana and Henry realize that their relationship with each other is more important than finding the relic. Indiana Jones and the Kingdom of the Crystal Skull (2008) Main article: Indiana Jones and the Kingdom of the Crystal Skull The fourth film is set in 1957, nineteen years after The Last Crusade. Indiana is having a quiet life teaching before being thrust into a new adventure. He races against agents of the Soviet Union, led by Irina Spalko (Cate Blanchett) for a crystal skull. His journey takes him across Nevada, Connecticut, Peru, and the Amazon rainforest in Brazil. Indiana is faced with betrayal by one of his best friends, Mac (Ray Winstone), is introduced to a greaser named Mutt Williams (Shia LaBeouf), who turns out to be his son (his real name revealed to be Henry Jones III), and is reunited with, and eventually marries, Marion Ravenwood, who was the lead female character introduced in the first movie. Indiana Jones and the Dial of Destiny (2023) Main article: Indiana Jones and the Dial of Destiny A fifth film, set in 1969, is scheduled for release on June 30, 2023. The film is being directed by James Mangold, who wrote the script with Jez and John-Henry Butterworth. Spielberg was initially set to direct the film, before passing it to Mangold. Spielberg instead serves as a producer, along with Kennedy and Marshall. Ford reprises the title role, and new cast members include Phoebe Waller-Bridge, Mads Mikkelsen, Thomas Kretschmann, Boyd Holbrook, Shaunette Renée Wilson, Toby Jones and Antonio Banderas. Development of the film began in 2008, but the project stalled for years. Filming eventually began in the United Kingdom in June 2021 and wrapped in February 2022.

The American media franchise, Indiana Jones, includes five film releases. The first film release, Raiders of the Last Ark included co-stars Paul Freeman, as Rene Bellow, Karen Allen, as Marion Ravenwood, and John Rhys-Davies, as Sallah. The second film release, Indiana Jones and the Temple of Doom included co-stars Kate Capshaw, as Willie Scott, Ke Huy Quan as Short Round, and Amris Puri, as Mola Ram. The third film release, Indiana Jones and the Last Crusade included co-stars Denholm Elliott as Marcus Brody, Julian Glover as Walter Donovan, Alison Doody as Dr. Elsa Schneider, and Sean Connery as Henry Jones. The fourth film release, Indiana Jones and the Kingdom of the Crystal Skull included co-stars Cate Blanchett as Irina Spalko, Ray Winstone as Mac and Shia LaBeouf as Mutt Williams. The fifth and final film release, Indiana Jones and the Dial of Destiny, is scheduled to be released in June 30, 2023 and currently includes co-stars include Phoebe Waller-Bridge, Mads Mikkelsen, Thomas Kretschmann, Boyd Holbrook, Shaunette Renée Wilson, Toby Jones and Antonio Banderas.

closed_qa

### Instruction: Given this paragraph about Indiana Jones, tell me who starred in the franchise films with Harrison Ford ### Context: Indiana Jones is an American media franchise based on the adventures of Dr. Henry Walton "Indiana" Jones, Jr., a fictional professor of archaeology, that began in 1981 with the film Raiders of the Lost Ark. In 1984, a prequel, The Temple of Doom, was released, and in 1989, a sequel, The Last Crusade. A fourth film followed in 2008, titled The Kingdom of the Crystal Skull. A fifth and final film, titled The Dial of Destiny, is in production and is scheduled to be released in 2023. The series was created by George Lucas and stars Harrison Ford as Indiana Jones. The first four films were directed by Steven Spielberg, who worked closely with Lucas during their production. In 1992, the franchise expanded to a television series with The Young Indiana Jones Chronicles, portraying the character in his childhood and youth, and including adventures with his parents. Marvel Comics began publishing The Further Adventures of Indiana Jones in 1983, and Dark Horse Comics gained the comic book rights to the character in 1991. Novelizations of the films have been published, as well as many novels with original adventures, including a series of German novels by Wolfgang Hohlbein, twelve novels set before the films published by Bantam Books, and a series set during the character's childhood inspired by the television show. Numerous Indiana Jones video games have been released since 1982. Background During 1973, George Lucas wrote The Adventures of Indiana Smith. Like Star Wars, it was an opportunity to create a modern version of the movie serials of the 1930s and 1940s. Lucas discussed the concept with Philip Kaufman, who worked with him for several weeks and decided upon the Ark of the Covenant as the MacGuffin. The project was stalled when Clint Eastwood hired Kaufman to write The Outlaw Josey Wales. In May 1977, Lucas was in Maui, trying to escape the worldwide success of Star Wars. His friend and colleague Steven Spielberg was also there, on vacation from work on Close Encounters of the Third Kind. Spielberg told Lucas he was interested in making a James Bond film, but Lucas told him of an idea "better than James Bond", outlining the plot of Raiders of the Lost Ark. Spielberg loved it, calling it "a James Bond film without the hardware", and had the character's surname changed to Jones. Spielberg and Lucas made a deal with Paramount Pictures for five Indiana Jones films. Spielberg and Lucas aimed to make Indiana Jones and the Temple of Doom much darker, because of their personal moods following their respective breakups and divorces. Lucas made the film a prequel as he did not want the Nazis to be the villains again. He had ideas regarding the Monkey King and a haunted castle, but eventually created the Sankara Stones, that would be used in the film. He hired Willard Huyck and Gloria Katz to write the script as he knew of their interest in Indian culture. The major scenes that were dropped from Raiders of the Lost Ark were included in this film: an escape using a giant rolling gong as a shield, a fall out of a plane in a raft, and a mine cart chase. For the third film, Spielberg revisited the Monkey King and haunted castle concepts, before Lucas suggested the Holy Grail. Spielberg had previously rejected this as too ethereal, but then devised a father-son story and decided that "The Grail that everybody seeks could be a metaphor for a son seeking reconciliation with a father and a father seeking reconciliation with a son." Following the 1989 release of Indiana Jones and the Last Crusade, Lucas let the series end as he felt he could not think of a good plot device to drive the next installment and chose instead to produce The Young Indiana Jones Chronicles, which explored the character in his early years. Ford played Indiana in one episode, narrating his adventures in 1920 Chicago. When Lucas shot Ford's role in December 1992, he realized that the scene opened up the possibility of a film with an older Indiana set in the 1950s. The film could reflect a science fiction 1950s B-movie, with aliens as the plot device. Ford disliked the new angle, telling Lucas: "No way am I being in a Steven Spielberg movie like that." Spielberg himself, who depicted aliens in Close Encounters of the Third Kind and E.T. the Extra-Terrestrial, resisted it. Lucas devised a story, which Jeb Stuart turned into a script from October 1993 to May 1994. Lucas wanted Indiana to get married, which would allow Henry Jones Sr. to return, expressing concern over whether his son is happy with what he has accomplished. After learning that Joseph Stalin was interested in psychic warfare, Lucas decided to have Russians as the villains and the aliens to have psychic powers. Following Stuart's next draft, Lucas hired Last Crusade writer Jeffrey Boam to write the next three versions, the last of which was completed in March 1996. Three months later, Independence Day was released, and Spielberg told Lucas he would not make another alien invasion film (or at least not until War of the Worlds in 2005). Lucas decided to focus on the Star Wars prequels instead. In 2000, Spielberg's son asked when the next Indiana Jones film would be released, which made him interested in reviving the project. The same year, Ford, Lucas, Spielberg, Frank Marshall, and Kathleen Kennedy met during the American Film Institute's tribute to Ford, and decided they wanted to enjoy the experience of making an Indiana Jones film again. Spielberg also found returning to the series a respite from his many dark films during this period. Spielberg and Lucas discussed the central idea of a B-movie involving aliens, and Lucas suggested using crystal skulls to ground the idea. Lucas found these artifacts as fascinating as the Ark, and had intended to feature them for a Young Indiana Jones episode before the show's cancellation. M. Night Shyamalan was hired to write for an intended 2002 shoot, but he was overwhelmed by the task, and claimed it was difficult to get Ford, Spielberg, and Lucas to focus. Stephen Gaghan and Tom Stoppard were also approached. Frank Darabont, who wrote various Young Indiana Jones episodes, was hired to write in May 2002. His script, titled Indiana Jones and the City of Gods, was set in the 1950s, with ex-Nazis pursuing Jones. Spielberg conceived the idea because of real-life figures such as Juan Perón in Argentina, who allegedly protected Nazi war criminals. Darabont claimed Spielberg loved the script, but Lucas had issues with it, and decided to take over writing himself. Lucas and Spielberg acknowledged that the 1950s setting could not ignore the Cold War, and the Russians were more plausible villains. Spielberg decided he could not satirize the Nazis after directing Schindler's List, while Ford felt "We plum wore the Nazis out." Darabont's main contribution was reintroducing Marion Ravenwood as Indiana's love interest, but he gave them a 13-year-old daughter, which Spielberg decided was too similar to The Lost World: Jurassic Park. Jeff Nathanson met with Spielberg and Lucas in August 2004, and turned in the next drafts in October and November 2005, titled The Atomic Ants. David Koepp continued on from there, giving his script the subtitle Destroyer of Worlds, based on the J. Robert Oppenheimer quote. It was changed to Kingdom of the Crystal Skull, as Spielberg found this a more inviting title which actually named the plot device. Koepp wanted to depict the character of Mutt as a nerd, but Lucas refused, explaining he had to resemble Marlon Brando in The Wild One; "he needs to be what Indiana Jones's father thought of – the curse returns in the form of his own son – he's everything a father can't stand". Koepp collaborated with Lawrence Kasdan on the film's "love dialogue". The Walt Disney Company has owned the Indiana Jones intellectual property since its acquisition of Lucasfilm, the series' production company, in 2012, when Lucas sold it for $4 billion. Walt Disney Studios owns the distribution and marketing rights to future Indiana Jones films since 2013, with Paramount retaining the distribution rights to the first four films and receiving "financial participation" from any additional films. Disney will distribute the fifth film Indiana Jones and the Dial of Destiny, which will be directed by James Mangold and produced by Spielberg. Raiders of the Lost Ark (1981) Main article: Raiders of the Lost Ark The first film is set in 1936. Indiana Jones (Harrison Ford) is hired by government agents to locate the Ark of the Covenant, the gold plated chest containing the stone tablets Moses used to inscribe the Ten Commandments before the Nazi Germans steal it for themselves. The Nazis have teams searching for religious artefacts, including the Ark, which is rumored to make an army that carries the Ark before it invincible. The Nazis are being helped by Indiana's arch-rival and French archaeologist René Belloq (Paul Freeman). With the help of his former lover and tough bar owner Marion Ravenwood (Karen Allen) and his excavator friend Sallah (John Rhys-Davies), Indiana manages to recover the Ark in Egypt. The Nazis steal the Ark and capture Indiana and Marion. Belloq and the Nazis perform a ceremony to open the Ark, but when they do so, all they find inside is sand. Suddenly, spirits come out of the Ark and the Nazis are all killed by the Ark's wrath. Indiana and Marion, who survived by closing their eyes, manage to get the Ark to the United States, where it is stored in a secret government warehouse. Indiana Jones and the Temple of Doom (1984) Main article: Indiana Jones and the Temple of Doom The second film is a prequel set in 1935, a year before Raiders of the Lost Ark. Indiana escapes Chinese gangsters led by Lao Che with the help of singer/actress Willie Scott (Kate Capshaw) and his twelve-year-old sidekick Short Round (Ke Huy Quan). The trio crash-land in India, where they come across a Punjabi village whose children have been kidnapped. The Thuggee cult led by Mola Ram (Amrish Puri) has also taken the holy Sankara Stones, which they will use to take over the world. Indiana manages to overcome Mola Ram's evil power, rescues the children and returns the stones to their rightful place, overcoming his own mercenary nature. The film has been noted as an outlier in the franchise, as it does not feature Indy's university or any antagonistic political entity, and is less focused on archaeology, being presented as a dark movie with gross-out elements, human sacrifice and torture. Indiana Jones and the Last Crusade (1989) Main article: Indiana Jones and the Last Crusade The third film is set in 1938. Indiana and his friend Marcus Brody (Denholm Elliott) are assigned by American businessman Walter Donovan (Julian Glover) to find the Holy Grail. They are teamed up with Dr. Elsa Schneider (Alison Doody), following on from where Indiana's estranged father Henry (Sean Connery) left off before he disappeared. It transpires that Donovan and Elsa are in league with the Nazis, who captured Henry Jones in order to get Indiana to help them find the Grail. However, Indiana recovers his father's diary filled with his research, and manages to rescue him before finding the location of the Grail. Both Donovan and Elsa fall to the temptation of the Grail, while Indiana and Henry realize that their relationship with each other is more important than finding the relic. Indiana Jones and the Kingdom of the Crystal Skull (2008) Main article: Indiana Jones and the Kingdom of the Crystal Skull The fourth film is set in 1957, nineteen years after The Last Crusade. Indiana is having a quiet life teaching before being thrust into a new adventure. He races against agents of the Soviet Union, led by Irina Spalko (Cate Blanchett) for a crystal skull. His journey takes him across Nevada, Connecticut, Peru, and the Amazon rainforest in Brazil. Indiana is faced with betrayal by one of his best friends, Mac (Ray Winstone), is introduced to a greaser named Mutt Williams (Shia LaBeouf), who turns out to be his son (his real name revealed to be Henry Jones III), and is reunited with, and eventually marries, Marion Ravenwood, who was the lead female character introduced in the first movie. Indiana Jones and the Dial of Destiny (2023) Main article: Indiana Jones and the Dial of Destiny A fifth film, set in 1969, is scheduled for release on June 30, 2023. The film is being directed by James Mangold, who wrote the script with Jez and John-Henry Butterworth. Spielberg was initially set to direct the film, before passing it to Mangold. Spielberg instead serves as a producer, along with Kennedy and Marshall. Ford reprises the title role, and new cast members include Phoebe Waller-Bridge, Mads Mikkelsen, Thomas Kretschmann, Boyd Holbrook, Shaunette Renée Wilson, Toby Jones and Antonio Banderas. Development of the film began in 2008, but the project stalled for years. Filming eventually began in the United Kingdom in June 2021 and wrapped in February 2022. ### Answer: The American media franchise, Indiana Jones, includes five film releases. The first film release, Raiders of the Last Ark included co-stars Paul Freeman, as Rene Bellow, Karen Allen, as Marion Ravenwood, and John Rhys-Davies, as Sallah. The second film release, Indiana Jones and the Temple of Doom included co-stars Kate Capshaw, as Willie Scott, Ke Huy Quan as Short Round, and Amris Puri, as Mola Ram. The third film release, Indiana Jones and the Last Crusade included co-stars Denholm Elliott as Marcus Brody, Julian Glover as Walter Donovan, Alison Doody as Dr. Elsa Schneider, and Sean Connery as Henry Jones. The fourth film release, Indiana Jones and the Kingdom of the Crystal Skull included co-stars Cate Blanchett as Irina Spalko, Ray Winstone as Mac and Shia LaBeouf as Mutt Williams. The fifth and final film release, Indiana Jones and the Dial of Destiny, is scheduled to be released in June 30, 2023 and currently includes co-stars include Phoebe Waller-Bridge, Mads Mikkelsen, Thomas Kretschmann, Boyd Holbrook, Shaunette Renée Wilson, Toby Jones and Antonio Banderas.</s>

Given this paragraph about composer Arvo Pärt, tell me where and when he studied composition and with which teacher.

Pärt's musical education began at the age of seven when he began attending music school in Rakvere. By his early teenage years, Pärt was writing his own compositions. His first serious study came in 1954 at the Tallinn Music Middle School, but less than a year later he temporarily abandoned it to fulfill military service, playing oboe and percussion in the army band. After his military service he attended the Tallinn Conservatory, where he studied composition with Heino Eller and it was said of him, "he just seemed to shake his sleeves and the notes would fall out". During the 1950s, he also completed his first vocal composition, the cantata Meie aed ('Our Garden') for children's choir and orchestra. He graduated in 1963.

Arvo Pärt studied composition at the Tallinn Conservatory during the 1950s. His composition teacher was Heino Eller.

closed_qa

### Instruction: Given this paragraph about composer Arvo Pärt, tell me where and when he studied composition and with which teacher. ### Context: Pärt's musical education began at the age of seven when he began attending music school in Rakvere. By his early teenage years, Pärt was writing his own compositions. His first serious study came in 1954 at the Tallinn Music Middle School, but less than a year later he temporarily abandoned it to fulfill military service, playing oboe and percussion in the army band. After his military service he attended the Tallinn Conservatory, where he studied composition with Heino Eller and it was said of him, "he just seemed to shake his sleeves and the notes would fall out". During the 1950s, he also completed his first vocal composition, the cantata Meie aed ('Our Garden') for children's choir and orchestra. He graduated in 1963. ### Answer: Arvo Pärt studied composition at the Tallinn Conservatory during the 1950s. His composition teacher was Heino Eller.</s>

What percent of the population were Hungarian?

In 1910, the village had 544, for the most part, Hungarian inhabitants. At the 2001 Census the recorded population of the village was 3804 while an end-2008 estimate by the Statistical Office had the village's population as 3794. As of 2001, 92.53% of its population were Hungarians while 6.07% were Slovaks. Roman Catholicism is the majority religion of the village, its adherents numbering 60.52% of the total population.

In 2001, 92.53% of its population were Hungarians.

closed_qa

### Instruction: What percent of the population were Hungarian? ### Context: In 1910, the village had 544, for the most part, Hungarian inhabitants. At the 2001 Census the recorded population of the village was 3804 while an end-2008 estimate by the Statistical Office had the village's population as 3794. As of 2001, 92.53% of its population were Hungarians while 6.07% were Slovaks. Roman Catholicism is the majority religion of the village, its adherents numbering 60.52% of the total population. ### Answer: In 2001, 92.53% of its population were Hungarians.</s>

Who is Ibrahima Tamba?

Ibrahima Tamba (born 1 January 1967) is a Senegalese sprinter. He competed in the 200 meters at the 1988 Summer Olympics and the 1992 Summer Olympics

Ibrahima Tamba is an olympic sprinter from Senegal who participated in the 88 and 92 summer olympics

closed_qa

### Instruction: Who is Ibrahima Tamba? ### Context: Ibrahima Tamba (born 1 January 1967) is a Senegalese sprinter. He competed in the 200 meters at the 1988 Summer Olympics and the 1992 Summer Olympics ### Answer: Ibrahima Tamba is an olympic sprinter from Senegal who participated in the 88 and 92 summer olympics</s>

Given this paragraph about Platylesches Robustus, what type of insect is it and how many countries can it be found?

Platylesches robustus, the robust hopper or large hopper, is a butterfly of the family Hesperiidae. It is found in Zululand, Eswatini, Transvaal, Mozambique and Zimbabwe. The habitat consists of moist, frost-free savanna and the transitional zone between forest and Guinea savanna.

The Platylesches robustus is a butterfly and it can be found in five different countries.

closed_qa

### Instruction: Given this paragraph about Platylesches Robustus, what type of insect is it and how many countries can it be found? ### Context: Platylesches robustus, the robust hopper or large hopper, is a butterfly of the family Hesperiidae. It is found in Zululand, Eswatini, Transvaal, Mozambique and Zimbabwe. The habitat consists of moist, frost-free savanna and the transitional zone between forest and Guinea savanna. ### Answer: The Platylesches robustus is a butterfly and it can be found in five different countries.</s>

What are the rivers in Rajkot area?

Rajkot is located at 22.3°N 70.78°E. It has an average elevation of 128 metres (420 ft). The city is located on the bank of Aji River and Nyari River which remains dry except the monsoon months of July to September. The city is spread in the area of 170.00 km2.

There are two rivers - Aaji and Nyari - in the vicinity of Rajkot.

closed_qa

### Instruction: What are the rivers in Rajkot area? ### Context: Rajkot is located at 22.3°N 70.78°E. It has an average elevation of 128 metres (420 ft). The city is located on the bank of Aji River and Nyari River which remains dry except the monsoon months of July to September. The city is spread in the area of 170.00 km2. ### Answer: There are two rivers - Aaji and Nyari - in the vicinity of Rajkot.</s>

Based on the reference text, which album helped Taylor Swift shift from a country star to more of a pop star?

Taylor Alison Swift (born December 13, 1989) is an American singer-songwriter. Her genre-spanning discography, songwriting and artistic reinventions have received critical praise and wide media coverage. Born in West Reading, Pennsylvania, Swift moved to Nashville at age 14 to become a country artist. She signed a songwriting deal with Sony/ATV Music Publishing in 2004 and a recording contract with Big Machine Records in 2005. Her 2006 self-titled debut album made her the first female country artist (singer) to write a U.S. platinum-certified album. Swift's next albums, Fearless (2008) and Speak Now (2010), explored country pop. The former's "Love Story" and "You Belong with Me" were the first country songs to top the U.S. pop and all-genre airplay charts, respectively. She experimented with rock and electronic styles on Red (2012), which featured her first Billboard Hot 100 number-one song, "We Are Never Ever Getting Back Together", and eschewed her country image in her synth-pop album, 1989 (2014), supported by chart-topping songs "Shake It Off", "Blank Space", and "Bad Blood". Media scrutiny inspired the urban-flavored Reputation (2017) and its number-one single "Look What You Made Me Do".

Taylor Swift's 1989 album was her first pop album, helping change her image from a country star.

closed_qa

### Instruction: Based on the reference text, which album helped Taylor Swift shift from a country star to more of a pop star? ### Context: Taylor Alison Swift (born December 13, 1989) is an American singer-songwriter. Her genre-spanning discography, songwriting and artistic reinventions have received critical praise and wide media coverage. Born in West Reading, Pennsylvania, Swift moved to Nashville at age 14 to become a country artist. She signed a songwriting deal with Sony/ATV Music Publishing in 2004 and a recording contract with Big Machine Records in 2005. Her 2006 self-titled debut album made her the first female country artist (singer) to write a U.S. platinum-certified album. Swift's next albums, Fearless (2008) and Speak Now (2010), explored country pop. The former's "Love Story" and "You Belong with Me" were the first country songs to top the U.S. pop and all-genre airplay charts, respectively. She experimented with rock and electronic styles on Red (2012), which featured her first Billboard Hot 100 number-one song, "We Are Never Ever Getting Back Together", and eschewed her country image in her synth-pop album, 1989 (2014), supported by chart-topping songs "Shake It Off", "Blank Space", and "Bad Blood". Media scrutiny inspired the urban-flavored Reputation (2017) and its number-one single "Look What You Made Me Do". ### Answer: Taylor Swift's 1989 album was her first pop album, helping change her image from a country star.</s>

Given these paragraphs about Hydrogen Storage, what are some of its use cases?

Several methods exist for storing hydrogen. These include mechanical approaches such as using high pressures and low temperatures, or employing chemical compounds that release H2 upon demand. While large amounts of hydrogen are produced by various industries, it is mostly consumed at the site of production, notably for the synthesis of ammonia. For many years hydrogen has been stored as compressed gas or cryogenic liquid, and transported as such in cylinders, tubes, and cryogenic tanks for use in industry or as propellant in space programs. Interest in using hydrogen for on-board storage of energy in zero-emissions vehicles is motivating the development of new methods of storage, more adapted to this new application. The overarching challenge is the very low boiling point of H2: it boils around 20.268 K (−252.882 °C or −423.188 °F). Achieving such low temperatures requires expending significant energy. https://en.wikipedia.org/wiki/Hydrogen_storage

It's been used in the industry or as propellant in space programs. Interest in using hydrogen for on-board storage of energy in zero-emissions vehicles is motivating the development of new methods of storage, more adapted to this new application.

closed_qa

### Instruction: Given these paragraphs about Hydrogen Storage, what are some of its use cases? ### Context: Several methods exist for storing hydrogen. These include mechanical approaches such as using high pressures and low temperatures, or employing chemical compounds that release H2 upon demand. While large amounts of hydrogen are produced by various industries, it is mostly consumed at the site of production, notably for the synthesis of ammonia. For many years hydrogen has been stored as compressed gas or cryogenic liquid, and transported as such in cylinders, tubes, and cryogenic tanks for use in industry or as propellant in space programs. Interest in using hydrogen for on-board storage of energy in zero-emissions vehicles is motivating the development of new methods of storage, more adapted to this new application. The overarching challenge is the very low boiling point of H2: it boils around 20.268 K (−252.882 °C or −423.188 °F). Achieving such low temperatures requires expending significant energy. https://en.wikipedia.org/wiki/Hydrogen_storage ### Answer: It's been used in the industry or as propellant in space programs. Interest in using hydrogen for on-board storage of energy in zero-emissions vehicles is motivating the development of new methods of storage, more adapted to this new application.</s>

Where did David Leatherbarrow receive his PhD from?

David Leatherbarrow is Professor of Architecture and Chair of the Graduate Group in Architecture at the University of Pennsylvania School of Design, Philadelphia, where he has taught since 1984. He received his B.Arch. from the University of Kentucky and holds a Ph.D. in Art from the University of Essex. He has also taught in England, at Cambridge University and the University of Westminster (formerly the Polytechnic of Central London).

University of Essex

closed_qa

### Instruction: Where did David Leatherbarrow receive his PhD from? ### Context: David Leatherbarrow is Professor of Architecture and Chair of the Graduate Group in Architecture at the University of Pennsylvania School of Design, Philadelphia, where he has taught since 1984. He received his B.Arch. from the University of Kentucky and holds a Ph.D. in Art from the University of Essex. He has also taught in England, at Cambridge University and the University of Westminster (formerly the Polytechnic of Central London). ### Answer: University of Essex</s>

Given the below reference text about Luftwaffe, tell me for how many years was this military organisation active officially in Germany?

The Luftwaffe was the aerial-warfare branch of the German Wehrmacht before and during World War II. Germany's military air arms during World War I, the Luftstreitkräfte of the Imperial Army and the Marine-Fliegerabteilung of the Imperial Navy, had been disbanded in May 1920 in accordance with the terms of the 1919 Treaty of Versailles which banned Germany from having any air force. During the interwar period, German pilots were trained secretly in violation of the treaty at Lipetsk Air Base in the Soviet Union. With the rise of the Nazi Party and the repudiation of the Versailles Treaty, the Luftwaffe's existence was publicly acknowledged on 26 February 1935, just over two weeks before open defiance of the Versailles Treaty through German rearmament and conscription would be announced on 16 March. The Condor Legion, a Luftwaffe detachment sent to aid Nationalist forces in the Spanish Civil War, provided the force with a valuable testing ground for new tactics and aircraft. Partially as a result of this combat experience, the Luftwaffe had become one of the most sophisticated, technologically advanced, and battle-experienced air forces in the world when World War II broke out in September 1939. By the summer of 1939, the Luftwaffe had twenty-eight Geschwader (wings). The Luftwaffe also operated a paratrooper force known as the Fallschirmjäger. The Luftwaffe proved instrumental in the German victories across Poland and Western Europe in 1939 and 1940. During the Battle of Britain, however, despite inflicting severe damage to the RAF's infrastructure and, during the subsequent Blitz, devastating many British cities, the German air force failed to batter the beleaguered British into submission. From 1942, Allied bombing campaigns gradually destroyed the Luftwaffe's fighter arm. From late 1942, the Luftwaffe used its surplus ground support and other personnel to raise Luftwaffe Field Divisions. In addition to its service in the West, the Luftwaffe operated over the Soviet Union, North Africa and Southern Europe. Despite its belated use of advanced turbojet and rocket-propelled aircraft for the destruction of Allied bombers, the Luftwaffe was overwhelmed by the Allies' superior numbers and improved tactics, and a lack of trained pilots and aviation fuel. In January 1945, during the closing stages of the Battle of the Bulge, the Luftwaffe made a last-ditch effort to win air superiority, and met with failure. With rapidly dwindling supplies of petroleum, oil, and lubricants after this campaign, and as part of the entire combined Wehrmacht military forces as a whole, the Luftwaffe ceased to be an effective fighting force. After the defeat of Nazi Germany, the Luftwaffe was disbanded in 1946. During World War II, German pilots claimed roughly 70,000 aerial victories, while over 75,000 Luftwaffe aircraft were destroyed or significantly damaged. Of these, nearly 40,000 were lost entirely. The Luftwaffe had only two commanders-in-chief throughout its history: Hermann Göring and later Generalfeldmarschall Robert Ritter von Greim for the last two weeks of the war.

The Luftwaffe was officially active for about 11 years - 1935 to 1946.

closed_qa

### Instruction: Given the below reference text about Luftwaffe, tell me for how many years was this military organisation active officially in Germany? ### Context: The Luftwaffe was the aerial-warfare branch of the German Wehrmacht before and during World War II. Germany's military air arms during World War I, the Luftstreitkräfte of the Imperial Army and the Marine-Fliegerabteilung of the Imperial Navy, had been disbanded in May 1920 in accordance with the terms of the 1919 Treaty of Versailles which banned Germany from having any air force. During the interwar period, German pilots were trained secretly in violation of the treaty at Lipetsk Air Base in the Soviet Union. With the rise of the Nazi Party and the repudiation of the Versailles Treaty, the Luftwaffe's existence was publicly acknowledged on 26 February 1935, just over two weeks before open defiance of the Versailles Treaty through German rearmament and conscription would be announced on 16 March. The Condor Legion, a Luftwaffe detachment sent to aid Nationalist forces in the Spanish Civil War, provided the force with a valuable testing ground for new tactics and aircraft. Partially as a result of this combat experience, the Luftwaffe had become one of the most sophisticated, technologically advanced, and battle-experienced air forces in the world when World War II broke out in September 1939. By the summer of 1939, the Luftwaffe had twenty-eight Geschwader (wings). The Luftwaffe also operated a paratrooper force known as the Fallschirmjäger. The Luftwaffe proved instrumental in the German victories across Poland and Western Europe in 1939 and 1940. During the Battle of Britain, however, despite inflicting severe damage to the RAF's infrastructure and, during the subsequent Blitz, devastating many British cities, the German air force failed to batter the beleaguered British into submission. From 1942, Allied bombing campaigns gradually destroyed the Luftwaffe's fighter arm. From late 1942, the Luftwaffe used its surplus ground support and other personnel to raise Luftwaffe Field Divisions. In addition to its service in the West, the Luftwaffe operated over the Soviet Union, North Africa and Southern Europe. Despite its belated use of advanced turbojet and rocket-propelled aircraft for the destruction of Allied bombers, the Luftwaffe was overwhelmed by the Allies' superior numbers and improved tactics, and a lack of trained pilots and aviation fuel. In January 1945, during the closing stages of the Battle of the Bulge, the Luftwaffe made a last-ditch effort to win air superiority, and met with failure. With rapidly dwindling supplies of petroleum, oil, and lubricants after this campaign, and as part of the entire combined Wehrmacht military forces as a whole, the Luftwaffe ceased to be an effective fighting force. After the defeat of Nazi Germany, the Luftwaffe was disbanded in 1946. During World War II, German pilots claimed roughly 70,000 aerial victories, while over 75,000 Luftwaffe aircraft were destroyed or significantly damaged. Of these, nearly 40,000 were lost entirely. The Luftwaffe had only two commanders-in-chief throughout its history: Hermann Göring and later Generalfeldmarschall Robert Ritter von Greim for the last two weeks of the war. ### Answer: The Luftwaffe was officially active for about 11 years - 1935 to 1946.</s>

What is the history of the travelling salesman problem throughout the years in a short bulleted list?

The origins of the travelling salesman problem are unclear. A handbook for travelling salesmen from 1832 mentions the problem and includes example tours through Germany and Switzerland, but contains no mathematical treatment. William Rowan Hamilton The TSP was mathematically formulated in the 19th century by the Irish mathematician William Rowan Hamilton and by the British mathematician Thomas Kirkman. Hamilton's icosian game was a recreational puzzle based on finding a Hamiltonian cycle. The general form of the TSP appears to have been first studied by mathematicians during the 1930s in Vienna and at Harvard, notably by Karl Menger, who defines the problem, considers the obvious brute-force algorithm, and observes the non-optimality of the nearest neighbour heuristic: We denote by messenger problem (since in practice this question should be solved by each postman, anyway also by many travelers) the task to find, for finitely many points whose pairwise distances are known, the shortest route connecting the points. Of course, this problem is solvable by finitely many trials. Rules which would push the number of trials below the number of permutations of the given points, are not known. The rule that one first should go from the starting point to the closest point, then to the point closest to this, etc., in general does not yield the shortest route. It was first considered mathematically in the 1930s by Merrill M. Flood who was looking to solve a school bus routing problem. Hassler Whitney at Princeton University generated interest in the problem, which he called the "48 states problem". The earliest publication using the phrase "travelling salesman problem" was the 1949 RAND Corporation report by Julia Robinson, "On the Hamiltonian game (a traveling salesman problem)." In the 1950s and 1960s, the problem became increasingly popular in scientific circles in Europe and the United States after the RAND Corporation in Santa Monica offered prizes for steps in solving the problem. Notable contributions were made by George Dantzig, Delbert Ray Fulkerson and Selmer M. Johnson from the RAND Corporation, who expressed the problem as an integer linear program and developed the cutting plane method for its solution. They wrote what is considered the seminal paper on the subject in which with these new methods they solved an instance with 49 cities to optimality by constructing a tour and proving that no other tour could be shorter. Dantzig, Fulkerson and Johnson, however, speculated that given a near optimal solution we may be able to find optimality or prove optimality by adding a small number of extra inequalities (cuts). They used this idea to solve their initial 49 city problem using a string model. They found they only needed 26 cuts to come to a solution for their 49 city problem. While this paper did not give an algorithmic approach to TSP problems, the ideas that lay within it were indispensable to later creating exact solution methods for the TSP, though it would take 15 years to find an algorithmic approach in creating these cuts. As well as cutting plane methods, Dantzig, Fulkerson and Johnson used branch and bound algorithms perhaps for the first time. In 1959, Jillian Beardwood, J.H. Halton and John Hammersley published an article entitled "The Shortest Path Through Many Points" in the journal of the Cambridge Philosophical Society. The Beardwood–Halton–Hammersley theorem provides a practical solution to the travelling salesman problem. The authors derived an asymptotic formula to determine the length of the shortest route for a salesman who starts at a home or office and visits a fixed number of locations before returning to the start. In the following decades, the problem was studied by many researchers from mathematics, computer science, chemistry, physics, and other sciences. In the 1960s, however, a new approach was created, that instead of seeking optimal solutions would produce a solution whose length is provably bounded by a multiple of the optimal length, and in doing so would create lower bounds for the problem; these lower bounds would then be used with branch and bound approaches. One method of doing this was to create a minimum spanning tree of the graph and then double all its edges, which produces the bound that the length of an optimal tour is at most twice the weight of a minimum spanning tree. In 1976, Christofides and Serdyukov independently of each other made a big advance in this direction: the Christofides-Serdyukov algorithm yields a solution that, in the worst case, is at most 1.5 times longer than the optimal solution. As the algorithm was simple and quick, many hoped it would give way to a near optimal solution method. However, this hope for improvement did not immediately materialize, and Christofides-Serdyukov remained the method with the best worst-case scenario until 2011, when a (very) slightly improved approximation algorithm was developed for the subset of "graphical" TSPs. In 2020 this tiny improvement was extended to the full (metric) TSP. Richard M. Karp showed in 1972 that the Hamiltonian cycle problem was NP-complete, which implies the NP-hardness of TSP. This supplied a mathematical explanation for the apparent computational difficulty of finding optimal tours. Great progress was made in the late 1970s and 1980, when Grötschel, Padberg, Rinaldi and others managed to exactly solve instances with up to 2,392 cities, using cutting planes and branch and bound. In the 1990s, Applegate, Bixby, Chvátal, and Cook developed the program Concorde that has been used in many recent record solutions. Gerhard Reinelt published the TSPLIB in 1991, a collection of benchmark instances of varying difficulty, which has been used by many research groups for comparing results. In 2006, Cook and others computed an optimal tour through an 85,900-city instance given by a microchip layout problem, currently the largest solved TSPLIB instance. For many other instances with millions of cities, solutions can be found that are guaranteed to be within 2–3% of an optimal tour.

* 19th century - mathematically formulated for first time by the Irish mathematician William Rowan Hamilton and by the British mathematician Thomas Kirkman * 1930s - First studied by mathematicians in Vienna and at Harvard, most notably by Karl Menger and Merill M. Flood who was looking to solve a school bus routing problem. * 1959 - Jillian Beardwood, J.H. Halton and John Hammersley published an article entitled "The Shortest Path Through Many Points" in the journal of the Cambridge Philosophical Society, which provided the first practical solution. * 1960s - new approach is created, which produce a solution whose length is provably bounded by a multiple of the optimal length. * 1972 - Richard M. Karp showed that the Hamiltonian cycle problem was NP-complete, which implies the NP-hardness of traveling salesman problem. * 1976 - Christofides and Serdyukov independently invented new algorithm, which yields a solution that in the worst case is at most 1.5 times longer than the optimal solution. * 1990s - Applegate, Bixby, Chvátal, and Cook developed the program Concorde that has been used in many recent record solutions. * 1991 - Gerhard Reinelt published the TSPLIB, a collection of benchmark instances of varying difficulty, which has been used by many research groups for comparing results * 2006 - Cook and others computed an optimal tour through an 85,900-city instance given by a microchip layout problem, currently the largest solved TSPLIB instance. * 2011 - Slightly improved approximation algorithm is developed for the subset of "graphical" traveling salesman problem. * 2020 - The slightly improved approximation algorithm developed for the subset of "graphical" is extended to cover the full traveling salesman problem.

closed_qa

### Instruction: What is the history of the travelling salesman problem throughout the years in a short bulleted list? ### Context: The origins of the travelling salesman problem are unclear. A handbook for travelling salesmen from 1832 mentions the problem and includes example tours through Germany and Switzerland, but contains no mathematical treatment. William Rowan Hamilton The TSP was mathematically formulated in the 19th century by the Irish mathematician William Rowan Hamilton and by the British mathematician Thomas Kirkman. Hamilton's icosian game was a recreational puzzle based on finding a Hamiltonian cycle. The general form of the TSP appears to have been first studied by mathematicians during the 1930s in Vienna and at Harvard, notably by Karl Menger, who defines the problem, considers the obvious brute-force algorithm, and observes the non-optimality of the nearest neighbour heuristic: We denote by messenger problem (since in practice this question should be solved by each postman, anyway also by many travelers) the task to find, for finitely many points whose pairwise distances are known, the shortest route connecting the points. Of course, this problem is solvable by finitely many trials. Rules which would push the number of trials below the number of permutations of the given points, are not known. The rule that one first should go from the starting point to the closest point, then to the point closest to this, etc., in general does not yield the shortest route. It was first considered mathematically in the 1930s by Merrill M. Flood who was looking to solve a school bus routing problem. Hassler Whitney at Princeton University generated interest in the problem, which he called the "48 states problem". The earliest publication using the phrase "travelling salesman problem" was the 1949 RAND Corporation report by Julia Robinson, "On the Hamiltonian game (a traveling salesman problem)." In the 1950s and 1960s, the problem became increasingly popular in scientific circles in Europe and the United States after the RAND Corporation in Santa Monica offered prizes for steps in solving the problem. Notable contributions were made by George Dantzig, Delbert Ray Fulkerson and Selmer M. Johnson from the RAND Corporation, who expressed the problem as an integer linear program and developed the cutting plane method for its solution. They wrote what is considered the seminal paper on the subject in which with these new methods they solved an instance with 49 cities to optimality by constructing a tour and proving that no other tour could be shorter. Dantzig, Fulkerson and Johnson, however, speculated that given a near optimal solution we may be able to find optimality or prove optimality by adding a small number of extra inequalities (cuts). They used this idea to solve their initial 49 city problem using a string model. They found they only needed 26 cuts to come to a solution for their 49 city problem. While this paper did not give an algorithmic approach to TSP problems, the ideas that lay within it were indispensable to later creating exact solution methods for the TSP, though it would take 15 years to find an algorithmic approach in creating these cuts. As well as cutting plane methods, Dantzig, Fulkerson and Johnson used branch and bound algorithms perhaps for the first time. In 1959, Jillian Beardwood, J.H. Halton and John Hammersley published an article entitled "The Shortest Path Through Many Points" in the journal of the Cambridge Philosophical Society. The Beardwood–Halton–Hammersley theorem provides a practical solution to the travelling salesman problem. The authors derived an asymptotic formula to determine the length of the shortest route for a salesman who starts at a home or office and visits a fixed number of locations before returning to the start. In the following decades, the problem was studied by many researchers from mathematics, computer science, chemistry, physics, and other sciences. In the 1960s, however, a new approach was created, that instead of seeking optimal solutions would produce a solution whose length is provably bounded by a multiple of the optimal length, and in doing so would create lower bounds for the problem; these lower bounds would then be used with branch and bound approaches. One method of doing this was to create a minimum spanning tree of the graph and then double all its edges, which produces the bound that the length of an optimal tour is at most twice the weight of a minimum spanning tree. In 1976, Christofides and Serdyukov independently of each other made a big advance in this direction: the Christofides-Serdyukov algorithm yields a solution that, in the worst case, is at most 1.5 times longer than the optimal solution. As the algorithm was simple and quick, many hoped it would give way to a near optimal solution method. However, this hope for improvement did not immediately materialize, and Christofides-Serdyukov remained the method with the best worst-case scenario until 2011, when a (very) slightly improved approximation algorithm was developed for the subset of "graphical" TSPs. In 2020 this tiny improvement was extended to the full (metric) TSP. Richard M. Karp showed in 1972 that the Hamiltonian cycle problem was NP-complete, which implies the NP-hardness of TSP. This supplied a mathematical explanation for the apparent computational difficulty of finding optimal tours. Great progress was made in the late 1970s and 1980, when Grötschel, Padberg, Rinaldi and others managed to exactly solve instances with up to 2,392 cities, using cutting planes and branch and bound. In the 1990s, Applegate, Bixby, Chvátal, and Cook developed the program Concorde that has been used in many recent record solutions. Gerhard Reinelt published the TSPLIB in 1991, a collection of benchmark instances of varying difficulty, which has been used by many research groups for comparing results. In 2006, Cook and others computed an optimal tour through an 85,900-city instance given by a microchip layout problem, currently the largest solved TSPLIB instance. For many other instances with millions of cities, solutions can be found that are guaranteed to be within 2–3% of an optimal tour. ### Answer: * 19th century - mathematically formulated for first time by the Irish mathematician William Rowan Hamilton and by the British mathematician Thomas Kirkman * 1930s - First studied by mathematicians in Vienna and at Harvard, most notably by Karl Menger and Merill M. Flood who was looking to solve a school bus routing problem. * 1959 - Jillian Beardwood, J.H. Halton and John Hammersley published an article entitled "The Shortest Path Through Many Points" in the journal of the Cambridge Philosophical Society, which provided the first practical solution. * 1960s - new approach is created, which produce a solution whose length is provably bounded by a multiple of the optimal length. * 1972 - Richard M. Karp showed that the Hamiltonian cycle problem was NP-complete, which implies the NP-hardness of traveling salesman problem. * 1976 - Christofides and Serdyukov independently invented new algorithm, which yields a solution that in the worst case is at most 1.5 times longer than the optimal solution. * 1990s - Applegate, Bixby, Chvátal, and Cook developed the program Concorde that has been used in many recent record solutions. * 1991 - Gerhard Reinelt published the TSPLIB, a collection of benchmark instances of varying difficulty, which has been used by many research groups for comparing results * 2006 - Cook and others computed an optimal tour through an 85,900-city instance given by a microchip layout problem, currently the largest solved TSPLIB instance. * 2011 - Slightly improved approximation algorithm is developed for the subset of "graphical" traveling salesman problem. * 2020 - The slightly improved approximation algorithm developed for the subset of "graphical" is extended to cover the full traveling salesman problem.</s>

Based on the reference text about Bitcoin, how many countries have banned Bitcoin?

Bitcoin (abbreviation: BTC or XBT; sign: ₿) is a protocol which implements a highly available, public, permanent, and decentralized ledger. In order to add to the ledger, a user must prove they control an entry in the ledger. The protocol specifies that the entry indicates an amount of a token, bitcoin with a minuscule b. The user can update the ledger, assigning some of their bitcoin to another entry in the ledger. Because the token has characteristics of money, it can be thought of as a digital currency. Bitcoin transactions are verified by network nodes through cryptography and recorded in a public distributed ledger called a blockchain. The cryptocurrency was invented in 2008 by an unknown person or group of people using the name Satoshi Nakamoto. The currency began use in 2009, when its implementation was released as open-source software.: ch. 1  The word "bitcoin" was defined in a white paper published on October 31, 2008. It is a compound of the words bit and coin. The Library of Congress reports that, as of November 2021, nine countries have fully banned bitcoin use, while a further forty-two have implicitly banned it. A few governments have used bitcoin in some capacity. El Salvador has adopted Bitcoin as legal tender, although use by merchants remains low. Ukraine has accepted cryptocurrency donations to fund the resistance to the 2022 Russian invasion. Iran has used bitcoin to bypass sanctions.

As of November 2021, 42 countries have implicitly banned and 9 countries have fully banned the use of Bitcoin.

closed_qa

### Instruction: Based on the reference text about Bitcoin, how many countries have banned Bitcoin? ### Context: Bitcoin (abbreviation: BTC or XBT; sign: ₿) is a protocol which implements a highly available, public, permanent, and decentralized ledger. In order to add to the ledger, a user must prove they control an entry in the ledger. The protocol specifies that the entry indicates an amount of a token, bitcoin with a minuscule b. The user can update the ledger, assigning some of their bitcoin to another entry in the ledger. Because the token has characteristics of money, it can be thought of as a digital currency. Bitcoin transactions are verified by network nodes through cryptography and recorded in a public distributed ledger called a blockchain. The cryptocurrency was invented in 2008 by an unknown person or group of people using the name Satoshi Nakamoto. The currency began use in 2009, when its implementation was released as open-source software.: ch. 1  The word "bitcoin" was defined in a white paper published on October 31, 2008. It is a compound of the words bit and coin. The Library of Congress reports that, as of November 2021, nine countries have fully banned bitcoin use, while a further forty-two have implicitly banned it. A few governments have used bitcoin in some capacity. El Salvador has adopted Bitcoin as legal tender, although use by merchants remains low. Ukraine has accepted cryptocurrency donations to fund the resistance to the 2022 Russian invasion. Iran has used bitcoin to bypass sanctions. ### Answer: As of November 2021, 42 countries have implicitly banned and 9 countries have fully banned the use of Bitcoin.</s>

Given this paragraph about the origin of zero, in which century did it first make an appearance in India?

Pingala (c. 3rd/2nd century BC), a Sanskrit prosody scholar, used binary numbers in the form of short and long syllables (the latter equal in length to two short syllables), a notation similar to Morse code. Pingala used the Sanskrit word śūnya explicitly to refer to zero. The concept of zero as a written digit in the decimal place value notation was developed in India. A symbol for zero, a large dot likely to be the precursor of the still-current hollow symbol, is used throughout the Bakhshali manuscript, a practical manual on arithmetic for merchants. In 2017, three samples from the manuscript were shown by radiocarbon dating to come from three different centuries: from AD 224–383, AD 680–779, and AD 885–993, making it South Asia's oldest recorded use of the zero symbol. It is not known how the birch bark fragments from different centuries forming the manuscript came to be packaged together.

In the 3rd/2nd century BC, by Pingala, for the first time in India, as "Sunya" in Sanskrit.

closed_qa

### Instruction: Given this paragraph about the origin of zero, in which century did it first make an appearance in India? ### Context: Pingala (c. 3rd/2nd century BC), a Sanskrit prosody scholar, used binary numbers in the form of short and long syllables (the latter equal in length to two short syllables), a notation similar to Morse code. Pingala used the Sanskrit word śūnya explicitly to refer to zero. The concept of zero as a written digit in the decimal place value notation was developed in India. A symbol for zero, a large dot likely to be the precursor of the still-current hollow symbol, is used throughout the Bakhshali manuscript, a practical manual on arithmetic for merchants. In 2017, three samples from the manuscript were shown by radiocarbon dating to come from three different centuries: from AD 224–383, AD 680–779, and AD 885–993, making it South Asia's oldest recorded use of the zero symbol. It is not known how the birch bark fragments from different centuries forming the manuscript came to be packaged together. ### Answer: In the 3rd/2nd century BC, by Pingala, for the first time in India, as "Sunya" in Sanskrit.</s>

Given this paragraph about magnesium, what is the boiling point of magnesium in celsius?

Elemental magnesium is a gray-white lightweight metal, two-thirds the density of aluminium. Magnesium has the lowest melting (923 K (650 °C)) and the lowest boiling point 1,363 K (1,090 °C) of all the alkaline earth metals.

The boiling point of magnesium is 1,090 °C.

closed_qa

### Instruction: Given this paragraph about magnesium, what is the boiling point of magnesium in celsius? ### Context: Elemental magnesium is a gray-white lightweight metal, two-thirds the density of aluminium. Magnesium has the lowest melting (923 K (650 °C)) and the lowest boiling point 1,363 K (1,090 °C) of all the alkaline earth metals. ### Answer: The boiling point of magnesium is 1,090 °C.</s>

Given a reference text about Ainley's storm petrel, tell me when and where they breed.

Ainley's storm petrel (Hydrobates cheimomnestes) is a species of seabird in the family Hydrobatidae. It breeds in the winter on Guadalupe Island off the western coast of Mexico. It ranges south to the Galápagos Islands. It is considered by some authorities to be a subspecies of Leach's storm petrel. Taxonomy This species was first described as a subspecies of Leach's storm petrel (Hydrobates leucorhoa), by the United States marine ornithologist David Ainley. He distinguished it on grounds of physiology, morphology and voice, separating it from Townsend's storm petrel (Hydrobates socorroensis) which breeds on the same islands in the summer whereas Hydrobates cheimomnestes breeds in the winter. The species name cheimomnestes means "winter suitor", in reference to the fact that this bird breeds in the winter. There is still disagreement among authorities as to whether it should be regarded as a separate species. It is recognised as such by Avibase, but not by the International Union for Conservation of Nature. It was formerly defined in the genus Oceanodroma before that genus was synonymized with Hydrobates.

Ainley's storm petrel breed on Guadalupe Island in the winter.

closed_qa

### Instruction: Given a reference text about Ainley's storm petrel, tell me when and where they breed. ### Context: Ainley's storm petrel (Hydrobates cheimomnestes) is a species of seabird in the family Hydrobatidae. It breeds in the winter on Guadalupe Island off the western coast of Mexico. It ranges south to the Galápagos Islands. It is considered by some authorities to be a subspecies of Leach's storm petrel. Taxonomy This species was first described as a subspecies of Leach's storm petrel (Hydrobates leucorhoa), by the United States marine ornithologist David Ainley. He distinguished it on grounds of physiology, morphology and voice, separating it from Townsend's storm petrel (Hydrobates socorroensis) which breeds on the same islands in the summer whereas Hydrobates cheimomnestes breeds in the winter. The species name cheimomnestes means "winter suitor", in reference to the fact that this bird breeds in the winter. There is still disagreement among authorities as to whether it should be regarded as a separate species. It is recognised as such by Avibase, but not by the International Union for Conservation of Nature. It was formerly defined in the genus Oceanodroma before that genus was synonymized with Hydrobates. ### Answer: Ainley's storm petrel breed on Guadalupe Island in the winter.</s>

Where does the word aurora come from?

The word "aurora" is derived from the name of the Roman goddess of the dawn, Aurora, who travelled from east to west announcing the coming of the sun. Ancient Greek poets used the corresponding name Eos metaphorically to refer to dawn, often mentioning its play of colors across the otherwise dark sky (e.g., "rosy-fingered dawn").

The word "aurora" is derived from the name of the Roman goddess of the dawn,

closed_qa

### Instruction: Where does the word aurora come from? ### Context: The word "aurora" is derived from the name of the Roman goddess of the dawn, Aurora, who travelled from east to west announcing the coming of the sun. Ancient Greek poets used the corresponding name Eos metaphorically to refer to dawn, often mentioning its play of colors across the otherwise dark sky (e.g., "rosy-fingered dawn"). ### Answer: The word "aurora" is derived from the name of the Roman goddess of the dawn,</s>

Based on this passage, in what field did Raisa earn her PhD?

In June 1955, Gorbachev graduated with a distinction; his final paper had been on the advantages of "socialist democracy" (the Soviet political system) over "bourgeois democracy" (liberal democracy). He was subsequently assigned to the Soviet Procurator's office, which was then focusing on the rehabilitation of the innocent victims of Stalin's purges, but found that they had no work for him. He was then offered a place on an MSU graduate course specializing in kolkhoz law, but declined. He had wanted to remain in Moscow, where Raisa was enrolled in a PhD program, but instead gained employment in Stavropol; Raisa abandoned her studies to join him there.

Based on this passage, Raisa did not earn a PhD. She abandoned her graduate studies in Moscow in order to join Gorbachev in Stavropol.

closed_qa

### Instruction: Based on this passage, in what field did Raisa earn her PhD? ### Context: In June 1955, Gorbachev graduated with a distinction; his final paper had been on the advantages of "socialist democracy" (the Soviet political system) over "bourgeois democracy" (liberal democracy). He was subsequently assigned to the Soviet Procurator's office, which was then focusing on the rehabilitation of the innocent victims of Stalin's purges, but found that they had no work for him. He was then offered a place on an MSU graduate course specializing in kolkhoz law, but declined. He had wanted to remain in Moscow, where Raisa was enrolled in a PhD program, but instead gained employment in Stavropol; Raisa abandoned her studies to join him there. ### Answer: Based on this passage, Raisa did not earn a PhD. She abandoned her graduate studies in Moscow in order to join Gorbachev in Stavropol.</s>

Given the reference text about Rafael Nadal, tell me how many singles grand slam titles he has won, which grand slam tournament he has won the most, and the main strength of his tennis game.

Rafael Nadal Parera (Catalan: [rəf(ə)ˈɛl nəˈðal pəˈɾeɾə], Spanish: [rafaˈel naˈðal paˈɾeɾa]; born 3 June 1986) is a Spanish professional tennis player. He is currently ranked world No. 14 in singles by the Association of Tennis Professionals (ATP). He has been ranked world No. 1 for 209 weeks, and has finished as the year-end No. 1 five times. He also holds the record for most consecutive weeks in the Top 10 of the ATP Rankings, having never left the Top 10 from April 2005 to March 2023, a total of 912 weeks. Nadal has won a joint-record 22 Grand Slam men's singles titles, including a record 14 French Open titles. He has won 92 ATP singles titles, including 36 Masters titles, with 63 of these on clay courts. Nadal is one of only two men to complete the Career Golden Slam in singles. His 81 consecutive wins on clay is the longest single-surface win streak in the Open Era. For over a decade, Nadal has dominated men's tennis along with Roger Federer and Novak Djokovic as the Big Three, collectively considered by many to be the three greatest male tennis players of all time. At the start of his professional career, Nadal became one of the most successful teenagers in ATP Tour history, reaching the world No. 2 ranking and winning 16 titles before turning 20, including his first French Open and six Masters events. Nadal became the world No. 1 for the first time in 2008 after defeating Federer in a historic Wimbledon final, his first major victory off clay. He followed up his win with an Olympic singles gold at the 2008 Beijing Olympics. After defeating Djokovic in the 2010 US Open final, then-24-year-old Nadal became the youngest man in the Open Era to achieve the Career Grand Slam, and the first man to win majors on three different surfaces (hard, grass, and clay) in the same year (Surface Slam). After two injury-plagued seasons, Nadal made a stellar return in one of the greatest comeback seasons of all time in 2013; reaching 14 finals, winning two majors and five Masters events including the US Open Series sweep (Summer Slam). He continued his dominance at the French Open, securing six titles, two US Open titles, an Australian Open title, and an Olympic doubles gold at the 2016 Rio Olympics with Marc López. Nadal surpassed his joint-record with Djokovic and Federer for the most major men's singles titles at the 2022 Australian Open, and became one of four men in history to complete the double Career Grand Slam in singles. He appeared in the Top 10 of the ATP rankings continuously from April 2005 to March 2023 – a record spanning 18 years. As a vigorous left-handed player, one of Nadal's main strengths is his forehand, which he hits with extremely heavy topspin at difficult angles. He is one of the best at breaking serve, regularly appearing among the tour leaders in percentage of return games, return points, and break points won. Nadal has won the Stefan Edberg Sportsmanship Award five times, and was the Laureus World Sportsman of the Year in 2011 and 2021. He is also a recipient of the Grand Cross of the Order of Dos De Mayo, the Grand Cross of Naval Merit, and the Medal of the City of Paris. Representing Spain, he has won two Olympic gold medals, and led the nation to four Davis Cup titles. Nadal has also opened a tennis academy in Mallorca, and is an active philanthropist.

Rafael Nadal has won 22 singles grand slam titles. The majority of his grand slam wins have been at the French Open, where he has won 14 times. The main strength of his tennis game is his forehand because of his ability to hit the ball with extremely heavy topspin at difficult angles.

closed_qa

### Instruction: Given the reference text about Rafael Nadal, tell me how many singles grand slam titles he has won, which grand slam tournament he has won the most, and the main strength of his tennis game. ### Context: Rafael Nadal Parera (Catalan: [rəf(ə)ˈɛl nəˈðal pəˈɾeɾə], Spanish: [rafaˈel naˈðal paˈɾeɾa]; born 3 June 1986) is a Spanish professional tennis player. He is currently ranked world No. 14 in singles by the Association of Tennis Professionals (ATP). He has been ranked world No. 1 for 209 weeks, and has finished as the year-end No. 1 five times. He also holds the record for most consecutive weeks in the Top 10 of the ATP Rankings, having never left the Top 10 from April 2005 to March 2023, a total of 912 weeks. Nadal has won a joint-record 22 Grand Slam men's singles titles, including a record 14 French Open titles. He has won 92 ATP singles titles, including 36 Masters titles, with 63 of these on clay courts. Nadal is one of only two men to complete the Career Golden Slam in singles. His 81 consecutive wins on clay is the longest single-surface win streak in the Open Era. For over a decade, Nadal has dominated men's tennis along with Roger Federer and Novak Djokovic as the Big Three, collectively considered by many to be the three greatest male tennis players of all time. At the start of his professional career, Nadal became one of the most successful teenagers in ATP Tour history, reaching the world No. 2 ranking and winning 16 titles before turning 20, including his first French Open and six Masters events. Nadal became the world No. 1 for the first time in 2008 after defeating Federer in a historic Wimbledon final, his first major victory off clay. He followed up his win with an Olympic singles gold at the 2008 Beijing Olympics. After defeating Djokovic in the 2010 US Open final, then-24-year-old Nadal became the youngest man in the Open Era to achieve the Career Grand Slam, and the first man to win majors on three different surfaces (hard, grass, and clay) in the same year (Surface Slam). After two injury-plagued seasons, Nadal made a stellar return in one of the greatest comeback seasons of all time in 2013; reaching 14 finals, winning two majors and five Masters events including the US Open Series sweep (Summer Slam). He continued his dominance at the French Open, securing six titles, two US Open titles, an Australian Open title, and an Olympic doubles gold at the 2016 Rio Olympics with Marc López. Nadal surpassed his joint-record with Djokovic and Federer for the most major men's singles titles at the 2022 Australian Open, and became one of four men in history to complete the double Career Grand Slam in singles. He appeared in the Top 10 of the ATP rankings continuously from April 2005 to March 2023 – a record spanning 18 years. As a vigorous left-handed player, one of Nadal's main strengths is his forehand, which he hits with extremely heavy topspin at difficult angles. He is one of the best at breaking serve, regularly appearing among the tour leaders in percentage of return games, return points, and break points won. Nadal has won the Stefan Edberg Sportsmanship Award five times, and was the Laureus World Sportsman of the Year in 2011 and 2021. He is also a recipient of the Grand Cross of the Order of Dos De Mayo, the Grand Cross of Naval Merit, and the Medal of the City of Paris. Representing Spain, he has won two Olympic gold medals, and led the nation to four Davis Cup titles. Nadal has also opened a tennis academy in Mallorca, and is an active philanthropist. ### Answer: Rafael Nadal has won 22 singles grand slam titles. The majority of his grand slam wins have been at the French Open, where he has won 14 times. The main strength of his tennis game is his forehand because of his ability to hit the ball with extremely heavy topspin at difficult angles.</s>

Given this reference text about beneficence, what can I do to ensure compliance to the beneficence concept?

Beneficence is a concept in research ethics that states that researchers should have the welfare of the research participant as a goal of any clinical trial or other research study. The antonym of this term, maleficence, describes a practice that opposes the welfare of any research participant. According to the Belmont Report, researchers are required to follow two moral requirements in line with the principle of beneficence: do not harm and maximize possible benefits for research while minimizing any potential harm on others. The concept that medical professionals and researchers would always practice beneficence seems natural to most patients and research participants, but in fact, every health intervention or research intervention has potential to harm the recipient. There are many different precedents in medicine and research for conducting a cost–benefit analysis and judging whether a certain action would be a sufficient practice of beneficence, and the extent to which treatments are acceptable or unacceptable is under debate. Despite differences in opinion, there are many concepts on which there is wide agreement. One is that there should be community consensus when determining best practices for dealing with ethical problems.

Ensure you are not harming your research participants, while maximizing benefits and minimizing any potential harm. Engage with your community to determine best practices when encountering ethical concerns. This should ensure your compliance with beneficence.

closed_qa

### Instruction: Given this reference text about beneficence, what can I do to ensure compliance to the beneficence concept? ### Context: Beneficence is a concept in research ethics that states that researchers should have the welfare of the research participant as a goal of any clinical trial or other research study. The antonym of this term, maleficence, describes a practice that opposes the welfare of any research participant. According to the Belmont Report, researchers are required to follow two moral requirements in line with the principle of beneficence: do not harm and maximize possible benefits for research while minimizing any potential harm on others. The concept that medical professionals and researchers would always practice beneficence seems natural to most patients and research participants, but in fact, every health intervention or research intervention has potential to harm the recipient. There are many different precedents in medicine and research for conducting a cost–benefit analysis and judging whether a certain action would be a sufficient practice of beneficence, and the extent to which treatments are acceptable or unacceptable is under debate. Despite differences in opinion, there are many concepts on which there is wide agreement. One is that there should be community consensus when determining best practices for dealing with ethical problems. ### Answer: Ensure you are not harming your research participants, while maximizing benefits and minimizing any potential harm. Engage with your community to determine best practices when encountering ethical concerns. This should ensure your compliance with beneficence.</s>

What did Jordan Akins do after retiring from baseball?

Akins graduated from Union Grove High School in McDonough, Georgia. He earned All-State honors as both a junior and senior, as well as All-Conference as a sophomore. He committed and signed to play football for the UCF Knights, choosing the Knights over schools such as LSU and Georgia. However, after being drafted by the Texas Rangers in the third round of the 2010 MLB Draft, he chose to pursue a baseball career instead of attending UCF and signed with the Rangers. Akins struggled in the minor leagues, hitting .218 over four seasons and never rising above high-A ball. He retired from baseball after the 2013 season and returned to play football at UCF.

Jordan Akins retired baseball after the 2013 season and returned to play football at UCF.

closed_qa

### Instruction: What did Jordan Akins do after retiring from baseball? ### Context: Akins graduated from Union Grove High School in McDonough, Georgia. He earned All-State honors as both a junior and senior, as well as All-Conference as a sophomore. He committed and signed to play football for the UCF Knights, choosing the Knights over schools such as LSU and Georgia. However, after being drafted by the Texas Rangers in the third round of the 2010 MLB Draft, he chose to pursue a baseball career instead of attending UCF and signed with the Rangers. Akins struggled in the minor leagues, hitting .218 over four seasons and never rising above high-A ball. He retired from baseball after the 2013 season and returned to play football at UCF. ### Answer: Jordan Akins retired baseball after the 2013 season and returned to play football at UCF.</s>

Based on this passage, how many Boeing 747s are required to ship 10 of ASML's best-selling EUVs?

After decades of development, ASML shipped the first production extreme ultraviolet lithography machine in 2013. These machines produce light in the 13.5 nm wavelength range when a high-energy laser is focused on microscopic droplets of molten tin to produce a plasma, which then emits EUV light. The light is bounced off Zeiss mirrors that are the flattest mirrors in the world, on to the surface of a silicon wafer to deliver the designs for the chip. ASML's best-selling EUV product has been the Twinscan NXE:3600D, which costs up to $200 million. Shipping the machine requires 40 shipping containers, 20 trucks and three Boeing 747s. As of 2022, ASML has shipped around 140 EUV systems, and it is the only company to manufacture them. ASML is working on the next generation of EUV systems, with the first shipments to customers for R&D purposes expected to take place at the end of 2023. The platform is designated High-NA as it will increase the numerical aperture (NA) from 0.33 to 0.55, and each system is expected to cost $300 million.

The best-selling EUV is the Twinscan NXE:3600D, and it takes 3 Boeing 747s per EUV, so 30 Boeing 747s are required to ship ten Twinscan NXE:3600Ds.

closed_qa

### Instruction: Based on this passage, how many Boeing 747s are required to ship 10 of ASML's best-selling EUVs? ### Context: After decades of development, ASML shipped the first production extreme ultraviolet lithography machine in 2013. These machines produce light in the 13.5 nm wavelength range when a high-energy laser is focused on microscopic droplets of molten tin to produce a plasma, which then emits EUV light. The light is bounced off Zeiss mirrors that are the flattest mirrors in the world, on to the surface of a silicon wafer to deliver the designs for the chip. ASML's best-selling EUV product has been the Twinscan NXE:3600D, which costs up to $200 million. Shipping the machine requires 40 shipping containers, 20 trucks and three Boeing 747s. As of 2022, ASML has shipped around 140 EUV systems, and it is the only company to manufacture them. ASML is working on the next generation of EUV systems, with the first shipments to customers for R&D purposes expected to take place at the end of 2023. The platform is designated High-NA as it will increase the numerical aperture (NA) from 0.33 to 0.55, and each system is expected to cost $300 million. ### Answer: The best-selling EUV is the Twinscan NXE:3600D, and it takes 3 Boeing 747s per EUV, so 30 Boeing 747s are required to ship ten Twinscan NXE:3600Ds.</s>

Given a reference text about Sean Dunphy, tell me where he is buried.

Sean Dunphy (30 November 1937 – 17 May 2011) was an Irish singer who represented Ireland at the 1967 Eurovision Song Contest, achieving second place with "If I Could Choose". He was also the first Irish singer to record in Nashville. Career Born in Whitehall, Dublin, Dunphy first became famous in his home country as lead singer with The Hoedowners, a showband led by trumpeter Earl Gill. Between 1966 and 1973, fourteen singles by Sean Dunphy and The Hoedowners entered the Irish Charts including, in 1969, two number ones: "Lonely Woods of Upton" and "When The Fields Were White With Daisies". In the late 1970s, Dunphy went on to have two further hits as a solo artist. Despite undergoing a quadruple heart bypass operation in 2007, Sean Dunphy continued to give live performances. In March 2009, he sang many of his greatest hits in a one-off concert at Dublin's National Concert Hall. His last public engagement was at a charity event twenty-four hours before his death. Dunphy died at his home in Baldoyle, County Dublin and is buried at Greenogue cemetery in Ashbourne, County Meath. Sean Dunphy and his wife Lily had four children. His son Brian is a member of the Irish band, The High Kings.

Sean Dunphy is buried at Greenogue cemetery in Ashbourne, County Meath.

closed_qa

### Instruction: Given a reference text about Sean Dunphy, tell me where he is buried. ### Context: Sean Dunphy (30 November 1937 – 17 May 2011) was an Irish singer who represented Ireland at the 1967 Eurovision Song Contest, achieving second place with "If I Could Choose". He was also the first Irish singer to record in Nashville. Career Born in Whitehall, Dublin, Dunphy first became famous in his home country as lead singer with The Hoedowners, a showband led by trumpeter Earl Gill. Between 1966 and 1973, fourteen singles by Sean Dunphy and The Hoedowners entered the Irish Charts including, in 1969, two number ones: "Lonely Woods of Upton" and "When The Fields Were White With Daisies". In the late 1970s, Dunphy went on to have two further hits as a solo artist. Despite undergoing a quadruple heart bypass operation in 2007, Sean Dunphy continued to give live performances. In March 2009, he sang many of his greatest hits in a one-off concert at Dublin's National Concert Hall. His last public engagement was at a charity event twenty-four hours before his death. Dunphy died at his home in Baldoyle, County Dublin and is buried at Greenogue cemetery in Ashbourne, County Meath. Sean Dunphy and his wife Lily had four children. His son Brian is a member of the Irish band, The High Kings. ### Answer: Sean Dunphy is buried at Greenogue cemetery in Ashbourne, County Meath.</s>

Given this paragraph about Computer Worm history, tell me the name of the earliest computer worm that caused damages to many computers on the Internet and the date when it was unleashed by his creator.

A computer worm is a standalone malware computer program that replicates itself in order to spread to other computers. It often uses a computer network to spread itself, relying on security failures on the target computer to access it. It will use this machine as a host to scan and infect other computers. When these new worm-invaded computers are controlled, the worm will continue to scan and infect other computers using these computers as hosts, and this behaviour will continue. Computer worms use recursive methods to copy themselves without host programs and distribute themselves based on exploiting the advantages of exponential growth, thus controlling and infecting more and more computers in a short time. Worms almost always cause at least some harm to the network, even if only by consuming bandwidth, whereas viruses almost always corrupt or modify files on a targeted computer. Many worms are designed only to spread, and do not attempt to change the systems they pass through. However, as the Morris worm and Mydoom showed, even these "payload-free" worms can cause major disruption by increasing network traffic and other unintended effects. History The actual term "worm" was first used in John Brunner's 1975 novel, The Shockwave Rider. In the novel, Nichlas Haflinger designs and sets off a data-gathering worm in an act of revenge against the powerful men who run a national electronic information web that induces mass conformity. "You have the biggest-ever worm loose in the net, and it automatically sabotages any attempt to monitor it. There's never been a worm with that tough a head or that long a tail!" The second ever computer worm was devised to be an anti-virus software. Named Reaper, it was created by Ray Tomlinson to replicate itself across the ARPANET and delete the experimental Creeper program (the first computer worm, 1971). On November 2, 1988, Robert Tappan Morris, a Cornell University computer science graduate student, unleashed what became known as the Morris worm, disrupting many computers then on the Internet, guessed at the time to be one tenth of all those connected. During the Morris appeal process, the U.S. Court of Appeals estimated the cost of removing the worm from each installation at between $200 and $53,000; this work prompted the formation of the CERT Coordination Center and Phage mailing list. Morris himself became the first person tried and convicted under the 1986 Computer Fraud and Abuse Act.

The first computer worm publicly known to cause real disruptions and malfunctioning to computers connected to the Internet is known to be the Morris worm, created in 1988 by Robert Morris, a computer science student at Cornell University.

closed_qa

### Instruction: Given this paragraph about Computer Worm history, tell me the name of the earliest computer worm that caused damages to many computers on the Internet and the date when it was unleashed by his creator. ### Context: A computer worm is a standalone malware computer program that replicates itself in order to spread to other computers. It often uses a computer network to spread itself, relying on security failures on the target computer to access it. It will use this machine as a host to scan and infect other computers. When these new worm-invaded computers are controlled, the worm will continue to scan and infect other computers using these computers as hosts, and this behaviour will continue. Computer worms use recursive methods to copy themselves without host programs and distribute themselves based on exploiting the advantages of exponential growth, thus controlling and infecting more and more computers in a short time. Worms almost always cause at least some harm to the network, even if only by consuming bandwidth, whereas viruses almost always corrupt or modify files on a targeted computer. Many worms are designed only to spread, and do not attempt to change the systems they pass through. However, as the Morris worm and Mydoom showed, even these "payload-free" worms can cause major disruption by increasing network traffic and other unintended effects. History The actual term "worm" was first used in John Brunner's 1975 novel, The Shockwave Rider. In the novel, Nichlas Haflinger designs and sets off a data-gathering worm in an act of revenge against the powerful men who run a national electronic information web that induces mass conformity. "You have the biggest-ever worm loose in the net, and it automatically sabotages any attempt to monitor it. There's never been a worm with that tough a head or that long a tail!" The second ever computer worm was devised to be an anti-virus software. Named Reaper, it was created by Ray Tomlinson to replicate itself across the ARPANET and delete the experimental Creeper program (the first computer worm, 1971). On November 2, 1988, Robert Tappan Morris, a Cornell University computer science graduate student, unleashed what became known as the Morris worm, disrupting many computers then on the Internet, guessed at the time to be one tenth of all those connected. During the Morris appeal process, the U.S. Court of Appeals estimated the cost of removing the worm from each installation at between $200 and $53,000; this work prompted the formation of the CERT Coordination Center and Phage mailing list. Morris himself became the first person tried and convicted under the 1986 Computer Fraud and Abuse Act. ### Answer: The first computer worm publicly known to cause real disruptions and malfunctioning to computers connected to the Internet is known to be the Morris worm, created in 1988 by Robert Morris, a computer science student at Cornell University.</s>

Who wrote Jane Eyre?

Swarcliffe Hall is a large hall that was constructed in 1800 in Birstwith, near Harrogate, England. The current house was built by John Greenwood in 1850, who engaged Major Rohde Hawkins as his architect, and is a Grade II listed building. The original Swarcliffe Hall was built on the site c1800 by the Blessard family, however the current hall which was built by the Greenwood family was completed in 1850. Charlotte Brontë was employed as a governess at the hall in 1839 and it is said her time spent there helped inspire her novel Jane Eyre. Prince Albert Victor, Duke of Clarence and Avondale visited the hall in 1888 and again during the following year whilst opening the New Bath Hospital in nearby Harrogate.

Charlotte Brontë

closed_qa

### Instruction: Who wrote Jane Eyre? ### Context: Swarcliffe Hall is a large hall that was constructed in 1800 in Birstwith, near Harrogate, England. The current house was built by John Greenwood in 1850, who engaged Major Rohde Hawkins as his architect, and is a Grade II listed building. The original Swarcliffe Hall was built on the site c1800 by the Blessard family, however the current hall which was built by the Greenwood family was completed in 1850. Charlotte Brontë was employed as a governess at the hall in 1839 and it is said her time spent there helped inspire her novel Jane Eyre. Prince Albert Victor, Duke of Clarence and Avondale visited the hall in 1888 and again during the following year whilst opening the New Bath Hospital in nearby Harrogate. ### Answer: Charlotte Brontë</s>

Given this paragraph about the Grammy Awards, who has the most Grammys of all time?

The record for the most Grammy Awards won in a lifetime is held by Beyoncé, an American singer, songwriter, and dancer, who has won 32. It was previously held by Georg Solti, a Hungarian-British conductor, who won 31.

The current record holder for most Grammy Awards won in a lifetime is Beyoncé.

closed_qa

### Instruction: Given this paragraph about the Grammy Awards, who has the most Grammys of all time? ### Context: The record for the most Grammy Awards won in a lifetime is held by Beyoncé, an American singer, songwriter, and dancer, who has won 32. It was previously held by Georg Solti, a Hungarian-British conductor, who won 31. ### Answer: The current record holder for most Grammy Awards won in a lifetime is Beyoncé.</s>

Which two people are depicted by carved heads near the windows?

St. John the Baptist, Blackrock is a Roman Catholic church in the parish of Blackrock, Ireland. The church is still in use and named after the Saint John the Baptist. It is located on Temple Road, Blackrock, County Dublin. The church was designed by the architect Patrick Byrne, who was educated at the Dublin Society Schools. It is one of the finest examples of the Gothic revival style in Ireland and was the first to be built in the Dublin Archdiocese. It is said to be inspired by the ideas of Augustus Welby Pugin (1812-1852). The initial building consisted of the nave, chancel and bell tower. To the rear of the church, two carved heads can be seen up high on either side of the rose window. The head on the left depicts St. John the Baptist, while the head on the right depicts the Archbishop Daniel Murray.

St. John the Baptist and the Archbishop Daniel Murray

closed_qa

### Instruction: Which two people are depicted by carved heads near the windows? ### Context: St. John the Baptist, Blackrock is a Roman Catholic church in the parish of Blackrock, Ireland. The church is still in use and named after the Saint John the Baptist. It is located on Temple Road, Blackrock, County Dublin. The church was designed by the architect Patrick Byrne, who was educated at the Dublin Society Schools. It is one of the finest examples of the Gothic revival style in Ireland and was the first to be built in the Dublin Archdiocese. It is said to be inspired by the ideas of Augustus Welby Pugin (1812-1852). The initial building consisted of the nave, chancel and bell tower. To the rear of the church, two carved heads can be seen up high on either side of the rose window. The head on the left depicts St. John the Baptist, while the head on the right depicts the Archbishop Daniel Murray. ### Answer: St. John the Baptist and the Archbishop Daniel Murray</s>

Given a reference text about NATO, when did Finland become a member?

The Republic of Finland has been a member of the North Atlantic Treaty Organization (NATO) since 4 April 2023. Finland had formal relations with NATO since 1994, when it joined the Partnership for Peace program, and has been a member of the European Union (EU), which largely overlaps with NATO in membership, since 1995.

April 4, 2023

closed_qa

### Instruction: Given a reference text about NATO, when did Finland become a member? ### Context: The Republic of Finland has been a member of the North Atlantic Treaty Organization (NATO) since 4 April 2023. Finland had formal relations with NATO since 1994, when it joined the Partnership for Peace program, and has been a member of the European Union (EU), which largely overlaps with NATO in membership, since 1995. ### Answer: April 4, 2023</s>

Based on the reference text, what colors do the Tampa Bay Rowdies wear and what stadium do they play in?

The Tampa Bay Rowdies are an American professional soccer team based in St. Petersburg, Florida. The club was founded in 2008 and first took the pitch in 2010. Since 2017, the Rowdies have been members of the USL Championship in the second tier of the American soccer pyramid. They formerly played in USSF Division 2 (in 2010) and the North American Soccer League (NASL) (from 2011 to 2016), which were also second-tier leagues. The Rowdies play their home games at Al Lang Stadium on St. Petersburg's downtown waterfront. The current club is a phoenix club of the original Tampa Bay Rowdies, who were active from 1975 until 1993, most notably in the original North American Soccer League. It shares its name, logo, and some of its club culture with the original club. The owners of the current club announced their intention to use the old Rowdies' trademarks at its introductory press conference in 2008. However, licensing issues forced the club to use the name FC Tampa Bay until December 2011, when it gained full rights to the Rowdies name and other intellectual property. The current Rowdies have always used the same green and yellow color scheme and "hoops" as the original team, even when they could not yet use the Rowdies name. The Rowdies captured the NASL championship in Soccer Bowl 2012, and their team shield includes two stars: one for their 2012 win and one for the 1975 Soccer Bowl championship won by the original Rowdies. The club has had a long-standing rivalry with the Fort Lauderdale Strikers, with whom they have contested the Florida Derby since the original Rowdies and Strikers first met in 1977. The Rowdies were also named co-league champions in 2020 after winning the USL Regular Season title and Eastern Conference Championship, but the title game was canceled due to COVID-19. They were Eastern Conference Champions again in 2021, but lost in the title game. In October 2018, the Tampa Bay Rays, the area's Major League Baseball franchise, announced plans to purchase the Rowdies and assume control of Al Lang Stadium.

The Tampa Bay Rowdies wear green and yellow and play in Al Lang Stadium in downtown St. Petersburg.

closed_qa

### Instruction: Based on the reference text, what colors do the Tampa Bay Rowdies wear and what stadium do they play in? ### Context: The Tampa Bay Rowdies are an American professional soccer team based in St. Petersburg, Florida. The club was founded in 2008 and first took the pitch in 2010. Since 2017, the Rowdies have been members of the USL Championship in the second tier of the American soccer pyramid. They formerly played in USSF Division 2 (in 2010) and the North American Soccer League (NASL) (from 2011 to 2016), which were also second-tier leagues. The Rowdies play their home games at Al Lang Stadium on St. Petersburg's downtown waterfront. The current club is a phoenix club of the original Tampa Bay Rowdies, who were active from 1975 until 1993, most notably in the original North American Soccer League. It shares its name, logo, and some of its club culture with the original club. The owners of the current club announced their intention to use the old Rowdies' trademarks at its introductory press conference in 2008. However, licensing issues forced the club to use the name FC Tampa Bay until December 2011, when it gained full rights to the Rowdies name and other intellectual property. The current Rowdies have always used the same green and yellow color scheme and "hoops" as the original team, even when they could not yet use the Rowdies name. The Rowdies captured the NASL championship in Soccer Bowl 2012, and their team shield includes two stars: one for their 2012 win and one for the 1975 Soccer Bowl championship won by the original Rowdies. The club has had a long-standing rivalry with the Fort Lauderdale Strikers, with whom they have contested the Florida Derby since the original Rowdies and Strikers first met in 1977. The Rowdies were also named co-league champions in 2020 after winning the USL Regular Season title and Eastern Conference Championship, but the title game was canceled due to COVID-19. They were Eastern Conference Champions again in 2021, but lost in the title game. In October 2018, the Tampa Bay Rays, the area's Major League Baseball franchise, announced plans to purchase the Rowdies and assume control of Al Lang Stadium. ### Answer: The Tampa Bay Rowdies wear green and yellow and play in Al Lang Stadium in downtown St. Petersburg.</s>

Given this paragraph about composer Paul Lansky, did he have an advanced degree?

Paul Lansky (born 1944) is an American composer. He was educated at Manhattan's High School of Music and Art, Queens College and Princeton University, studying with George Perle and Milton Babbitt, among others. He received his Ph.D. in music from Princeton in 1973. His doctoral dissertation consisted of an essay titled "Affine music" and a composition of string quartet.Originally intending to pursue a career in performance, during 1965–66 he played the French horn with the Dorian Wind Quintet. He left the group to attend graduate school. From 1969 until his retirement in 2014 he was on the faculty at Princeton University where he retired as the William Shubael Conant Professor of Music.

Yes. Paul Lansky graduated from Princeton University with a Ph.D in music.

closed_qa

### Instruction: Given this paragraph about composer Paul Lansky, did he have an advanced degree? ### Context: Paul Lansky (born 1944) is an American composer. He was educated at Manhattan's High School of Music and Art, Queens College and Princeton University, studying with George Perle and Milton Babbitt, among others. He received his Ph.D. in music from Princeton in 1973. His doctoral dissertation consisted of an essay titled "Affine music" and a composition of string quartet.Originally intending to pursue a career in performance, during 1965–66 he played the French horn with the Dorian Wind Quintet. He left the group to attend graduate school. From 1969 until his retirement in 2014 he was on the faculty at Princeton University where he retired as the William Shubael Conant Professor of Music. ### Answer: Yes. Paul Lansky graduated from Princeton University with a Ph.D in music.</s>

The reduction in wild grain populations lead to what type of crop being cultivated?

Around 4000 BCE, the Saharan climate started to become drier at an exceedingly fast pace. This climate change caused lakes and rivers to shrink significantly and caused increasing desertification. This, in turn, decreased the amount of land conducive to settlements and encouraged migrations of farming communities to the more tropical climate of West Africa. During the first millennium BCE, a reduction in wild grain populations related to changing climate conditions facilitated the expansion of farming communities and the rapid adoption of rice cultivation around the Niger River.

The reduction in wild grain populations lead to the rapid adoption of rice cultivation around the Niger River.

closed_qa

### Instruction: The reduction in wild grain populations lead to what type of crop being cultivated? ### Context: Around 4000 BCE, the Saharan climate started to become drier at an exceedingly fast pace. This climate change caused lakes and rivers to shrink significantly and caused increasing desertification. This, in turn, decreased the amount of land conducive to settlements and encouraged migrations of farming communities to the more tropical climate of West Africa. During the first millennium BCE, a reduction in wild grain populations related to changing climate conditions facilitated the expansion of farming communities and the rapid adoption of rice cultivation around the Niger River. ### Answer: The reduction in wild grain populations lead to the rapid adoption of rice cultivation around the Niger River.</s>

Which family of moth does the Euxoa brevipennis belong to?

Euxoa brevipennis is a moth of the family Noctuidae first described by Smith in 1888. In Canada, it is found in British Columbia, Alberta and Saskatchewan. In the United States, it has been recorded from Utah, Colorado and California.

The Euxoa brevipennis moth belongs to the Noctuidae family of moths.

closed_qa

### Instruction: Which family of moth does the Euxoa brevipennis belong to? ### Context: Euxoa brevipennis is a moth of the family Noctuidae first described by Smith in 1888. In Canada, it is found in British Columbia, Alberta and Saskatchewan. In the United States, it has been recorded from Utah, Colorado and California. ### Answer: The Euxoa brevipennis moth belongs to the Noctuidae family of moths.</s>

What is First-stage boot loader

Boot loaders may face peculiar constraints, especially in size; for instance, on the earlier IBM PC and compatibles, a boot sector should typically work in only 32 KiB (later relaxed to 64 KiB) of system memory and only use instructions supported by the original 8088/8086 processors. The first stage of PC boot loaders (FSBL, first-stage boot loader) located on fixed disks and removable drives must fit into the first 446 bytes of the Master boot record in order to leave room for the default 64-byte partition table with four partition entries and the two-byte boot signature, which the BIOS requires for a proper boot loader — or even less, when additional features like more than four partition entries (up to 16 with 16 bytes each), a disk signature (6 bytes), a disk timestamp (6 bytes), an Advanced Active Partition (18 bytes) or special multi-boot loaders have to be supported as well in some environments. In floppy and superfloppy volume boot records, up to 59 bytes are occupied for the extended BIOS parameter block on FAT12 and FAT16 volumes since DOS 4.0, whereas the FAT32 EBPB introduced with DOS 7.1 requires even 87 bytes, leaving only 423 bytes for the boot loader when assuming a sector size of 512 bytes. Microsoft boot sectors therefore traditionally imposed certain restrictions on the boot process, for example, the boot file had to be located at a fixed position in the root directory of the file system and stored as consecutive sectors,conditions taken care of by the SYS command and slightly relaxed in later versions of DOS.The boot loader was then able to load the first three sectors of the file into memory, which happened to contain another embedded boot loader able to load the remainder of the file into memory.When Microsoft added LBA and FAT32 support, they even switched to a boot loader reaching over two physical sectors and using 386 instructions for size reasons. At the same time other vendors managed to squeeze much more functionality into a single boot sector without relaxing the original constraints on only minimal available memory (32 KiB) and processor support (8088/8086). For example, DR-DOS boot sectors are able to locate the boot file in the FAT12, FAT16 and FAT32 file system, and load it into memory as a whole via CHS or LBA, even if the file is not stored in a fixed location and in consecutive sectors. BIOS and UEFI not only load the operating system from a non-volatile device, they also initialize system hardware for operating system. Examples of first-stage bootloaders include BIOS, coreboot, Libreboot and Das U-Boot.

The first-stage bootloader (FSBL) is the first boot stage for the HPS. In FPGA Configuration First mode, the SDM extracts and loads the FSBL into the on-chip RAM of the HPS. The SDM releases the HPS from reset after the FPGA has entered user mode. After the HPS exits reset, it uses the FSBL hardware handoff file to setup the clocks, HPS dedicated I/Os, and peripherals. Typically, the FSBL then loads the SSBL into HPS SDRAM and passes the control to the SSBL.

closed_qa

### Instruction: What is First-stage boot loader ### Context: Boot loaders may face peculiar constraints, especially in size; for instance, on the earlier IBM PC and compatibles, a boot sector should typically work in only 32 KiB (later relaxed to 64 KiB) of system memory and only use instructions supported by the original 8088/8086 processors. The first stage of PC boot loaders (FSBL, first-stage boot loader) located on fixed disks and removable drives must fit into the first 446 bytes of the Master boot record in order to leave room for the default 64-byte partition table with four partition entries and the two-byte boot signature, which the BIOS requires for a proper boot loader — or even less, when additional features like more than four partition entries (up to 16 with 16 bytes each), a disk signature (6 bytes), a disk timestamp (6 bytes), an Advanced Active Partition (18 bytes) or special multi-boot loaders have to be supported as well in some environments. In floppy and superfloppy volume boot records, up to 59 bytes are occupied for the extended BIOS parameter block on FAT12 and FAT16 volumes since DOS 4.0, whereas the FAT32 EBPB introduced with DOS 7.1 requires even 87 bytes, leaving only 423 bytes for the boot loader when assuming a sector size of 512 bytes. Microsoft boot sectors therefore traditionally imposed certain restrictions on the boot process, for example, the boot file had to be located at a fixed position in the root directory of the file system and stored as consecutive sectors,conditions taken care of by the SYS command and slightly relaxed in later versions of DOS.The boot loader was then able to load the first three sectors of the file into memory, which happened to contain another embedded boot loader able to load the remainder of the file into memory.When Microsoft added LBA and FAT32 support, they even switched to a boot loader reaching over two physical sectors and using 386 instructions for size reasons. At the same time other vendors managed to squeeze much more functionality into a single boot sector without relaxing the original constraints on only minimal available memory (32 KiB) and processor support (8088/8086). For example, DR-DOS boot sectors are able to locate the boot file in the FAT12, FAT16 and FAT32 file system, and load it into memory as a whole via CHS or LBA, even if the file is not stored in a fixed location and in consecutive sectors. BIOS and UEFI not only load the operating system from a non-volatile device, they also initialize system hardware for operating system. Examples of first-stage bootloaders include BIOS, coreboot, Libreboot and Das U-Boot. ### Answer: The first-stage bootloader (FSBL) is the first boot stage for the HPS. In FPGA Configuration First mode, the SDM extracts and loads the FSBL into the on-chip RAM of the HPS. The SDM releases the HPS from reset after the FPGA has entered user mode. After the HPS exits reset, it uses the FSBL hardware handoff file to setup the clocks, HPS dedicated I/Os, and peripherals. Typically, the FSBL then loads the SSBL into HPS SDRAM and passes the control to the SSBL.</s>

Given this reference text about a video game, when was Donkey Kong released?

Nintendo was founded in 1889 as Nintendo Karuta by craftsman Fusajiro Yamauchi and originally produced handmade hanafuda playing cards. After venturing into various lines of business during the 1960s and acquiring a legal status as a public company, Nintendo distributed its first console, the Color TV-Game, in 1977. It gained international recognition with the release of Donkey Kong in 1981 and the Nintendo Entertainment System and Super Mario Bros. in 1985.

1981

closed_qa

### Instruction: Given this reference text about a video game, when was Donkey Kong released? ### Context: Nintendo was founded in 1889 as Nintendo Karuta by craftsman Fusajiro Yamauchi and originally produced handmade hanafuda playing cards. After venturing into various lines of business during the 1960s and acquiring a legal status as a public company, Nintendo distributed its first console, the Color TV-Game, in 1977. It gained international recognition with the release of Donkey Kong in 1981 and the Nintendo Entertainment System and Super Mario Bros. in 1985. ### Answer: 1981</s>