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how to cook steak in oven	<P> Instructions. 1 PREHEAT oven to 250F. Place steaks on a rack over a baking sheet. 2 Rub with 1 tbsp oil and season with salt and pepper. 3 Roast steaks in the centre of the oven for about 20 minutes for medium-rare. Remove from oven. HEAT oil in a medium skillet over high heat. Add steaks and sear until deep brown and crisp, about 3 minutes a side. Hold the steak on their sides and cook the edges for 1 min per side. Remove to rack and let rest for 10 min. <P> Step 5: Broil the steaks. -- Ask the people you are serving how they like their steaks cooked. Steaks for those who like their meat well-done should go under the broiler a few minutes before the steaks for those who like their meat rare to medium. -- Place the steaks on the unheated rack of the broiler pan. -- For 1-inch steaks cooked to medium doneness, broil the steaks for about 15 minutes, turning once halfway through cooking time. Allow less time for rare steaks and more time for well-done steaks. <P> 1 PREHEAT oven to 250F. Place steaks on a rack over a baking sheet. 2 Rub with 1 tbsp oil and season with salt and pepper. 3 Roast steaks in the centre of the oven for about 20 minutes for medium-rare. 4 Remove from oven.HEAT oil in a medium skillet over high heat. Add steaks and sear until deep brown and crisp, about 3 minutes a side. Hold the steak on their sides and cook the edges for 1 min per side. Remove to rack and let rest for 10 min.nstructions. 1 <P> Flip the steak and cook for an additional 1-2 minutes over high heat. You won't need as much time on the second side of the steak because it will continue to develop color (from contact with the bottom of the pan) in the oven. Place the steak gingerly inside the pan and lower the skillet's handle back down. 1 Adjust the steak with tongs to ensure that it's getting equal coverage on the pan (for a better crust), but don't press down on the steak with your tongs in an attempt to sear the steak. 2 7 Edit step. <P> Place a 10-to-12-inch cast-iron skillet in the oven and heat the oven to 500 degrees F. Bring the steak to room temperature. When the oven reaches temperature, remove the skillet and place on the range over high heat for 5 minutes. Coat the steak lightly with oil and sprinkle both sides with a generous pinch of salt. Grind on black pepper. Immediately place the steak in the middle of the hot, dry skillet. Cook 30 seconds without moving. Turn with tongs and cook another 30 seconds, then put the pan straight into the oven for 2 minutes. <P> Place the pan on the stovetop and turn the heat to high. 3. Immediately place steaks in the middle of the hot, dry pan. Cook 1 to 2 minutes without moving; turn steaks with tongs, and cook another 1 to 2 minutes. 4. Transfer the pan with the seared steaks to the hot oven. Roast in the center of the oven until the steaks are cooked to your liking, about 3 to 5 minutes. Use a meat thermometer to test for doneness: 1 Rare — 125 degrees F (52 degrees C). <P> 1 Return the steak flat in the pan. 2 Transfer the skillet to the oven and cook until an instant-read thermometer reads to desired doneness (oven cooking time will be anywhere from 5-15 minutes depending on the desired doneness of your steak --- for medium-rare 140-145 degrees and for medium 155-160 degrees. 1 Season the steak/s with black pepper, then allow the meat to sit at room temperature for 1 to 1-1/2 hours. 2 Preheat oven to 400 degrees F. 3 Heat the oil in a cast-iron skillet over medium-high heat or just until the oil begins to lightly smoke. <P> Turn the broiler on and heat the pan you will be cooking the steaks on. Just as you don’t want to throw the steak in a cold pan or on a cold grill, you want to make sure your broiler pan is nice and hot as well. Oil it a little with olive oil and turn the broiler on for 10 minutes. <P> 1 Place a tablespoon of unsalted butter on each of the steaks and place the skillet directly in the oven. 2 Turn the heat down to 125 degrees Fahrenheit (51.6 degrees Celsius). 3 Cook the steaks in the oven for eight to 12 minutes. 4 Cut into one of the steaks to see if it's cooked to your taste. Here's what to do: 1 Preheat your oven to 400 degrees Fahrenheit (204.4 degrees Celsius). 2 Heat your cast iron skillet over a high heat for five to seven minutes. 3 Pat your steaks dry with the paper towel. 4 The drier they are, the crisper the layer of flavor will be on the steak.	Preheat oven to 250F. Place steaks on a rack over a baking sheet. Rub with 1 tbsp oil and season with salt and pepper. Roast steaks in the centre of the oven for about 20 minutes for medium-rare. Remove from oven.
describe the function of the tongue	<P> The tongue is a muscular hydrostat on the floor of the mouth of most vertebrates that manipulates food for mastication. It is the primary organ of taste (gustation), as much of its upper surface is covered in taste buds. The tongue's upper surface is also covered in numerous lingual papillae. The tongue is a muscular structure that forms part of the floor of the oral cavity. The left and right sides of the tongue are separated by the lingual septum. <P> Tongue is a muscular structure that has the organs of taste reception. The organs for sense of taste are the taste buds. Tongue is located inside the mouth and is an important muscle. It does not have any bones. It is reddish-pink in color. The main function of tongue is taste, help in chewing food, in swallowing food and speech. <P> To taste food. 2. To keep food between the teeth during chewing. 3. To help swallowing. 4. To help to dean the teeth. 5. To help speaking. On the surface of the tongue there are small groups of sensory cells known as taste buds. Taste buds have nerve endings that gather information about different tastes. The taste of food is sensed when food partides are dissolved in saliva. <P> © 2014 WebMD, LLC. All rights reserved. The tongue is a muscular organ in the mouth. The tongue is covered with moist, pink tissue called mucosa. Tiny bumps called papillae give the tongue its rough texture. Thousands of taste buds cover the surfaces of the papillae. The tongue is anchored to the mouth by webs of tough tissue and mucosa. The tether holding down the front of the tongue is called the frenum. In the back of the mouth, the tongue is anchored into the hyoid bone. The tongue is vital for chewing and swallowing food, as well as for speech <P> The tongue is no mere extension of skin -- it's a multipurpose organ in its own right. While its chief function is tasting the substances animals take into their bodies for nourishment, it participates in other important activities as well. <P> 1 The tongue of the dog has numerous functions. 2 The tongue is used mainly for guiding food and water into the mouth and throat. 3 The tongue assists in the chewing and swallowing of food. 4 It serves as a ladle for lapping water and other liquids into the mouth during drinking. A dog's tongue is an elongated, mobile, muscular organ. It is the chief organ responsible for taste and obtaining food. It also aids in the chewing and swallowing of food. The teeth are highly specialized structures that tear, cut and grind food into pieces small enough to swallow. <P> 1 On the surface of the tongue there are tiny papillae, they are in large number and the main function of the papilla is they act as taste buds. 2 Tongue can distinguish the taste of the food, such as bitter, sour, sweet and salty. Therefore we should take great care of this organ which is made up of muscles. Function of the tongue. 1 On the surface of the tongue there are tiny papillae, they are in large number and the main function of the papilla is they act as taste buds. 2 Tongue can distinguish the taste of the food, such as bitter, sour, sweet and salty. 3 Tongue is responsible for speech <P> Below is information about the structure and function of the canine tongue, teeth and mouth. We will tell you about the general structure, how they work in dogs, common diseases that affect these areas and common diagnostic tests performed in dogs to evaluate the tongue, teeth and mouth. A dog's tongue is an elongated, mobile, muscular organ. It is the chief organ responsible for taste and obtaining food. It also aids in the chewing and swallowing of food. The teeth are highly specialized structures that tear, cut and grind food into pieces small enough to swallow.	The surface of the tongue there are tiny papillae, they are in large number and the main function of the papilla is they act as taste buds.Tongue can distinguish the taste of the food, such as bitter, sour, sweet and salty.Tongue is responsible for speech.
definition of recessive trait	<P> Relating to the form of a gene that is not expressed as a trait in an individual unless two such genes are inherited, one from each parent. In an organism having two different genes for a trait, the recessive form is suppressed by its counterpart, or dominant, form located on the other of a pair of chromosomes. <P> Recessive trait. Definition. noun. (genetics) A genetic trait that results from the expression of the two recessive alleles. Supplement. When the dominant allele is lacking or when the two alleles present are both recessive, their expression results in a recessive trait. Also called: 1 recessive character. <P> (In genetic terms, a dominant trait is one that is phenotypically expressed in heterozygotes). A dominant trait is opposed to a recessive trait which is expressed only when two copies of the gene are present. (In genetic terms, a recessive trait is one that is phenotypically expressed only in homozygotes). Examples of dominant disorders include: 1 Achondroplasia (a common form of dwarfism with short arms and legs), <P> Examples of Recessive Traits. We know many examples of traits controlled by recessive alleles; however, as scientists are more thoroughly studying the genetics of traits, they are finding that many have multiple genes and alleles associated with them, instead of just one gene with two alleles as explained above. <P> Recessive trait. An inherited trait that is outwardly obvious only when two copies of the gene for that trait are present—as opposed to a dominant trait where one copy of the gene for the dominant trait is sufficient to display the trait. <P> Another way to define a recessive trait is one that is never expressed by the heterozygous genotype. For example, the heterozygous genotype for earlobe type (Ee) produces detached earlobes because the dominant allele (E) hides the effects of the recessive allele (e).	A genetic trait that results from the expression of the two recessive alleles. Supplement.
what does concursus mean	<P> Definition of CONCURSUS. : the influx of divine causation upon secondary causes; especially: the doctrine that before the fall man was preserved from sin by the aid of God. ADVERTISEMENT. Medieval Latin, from Latin, concourse — more at concourse. Origin of CONCURSUS. Medieval Latin, from Latin, concourse — more at concourse. This word doesn't usually appear in our free dictionary, but the definition from our premium Unabridged Dictionary is offered here on a limited basis. <P> Full Definition of CONCURRENCE. 1. a: the simultaneous occurrence of events or circumstances b: the meeting of concurrent lines in a point. 2. a: agreement or union in action: cooperation b (1) : agreement in opinion or design (2) : consent. <P> Wiktionary (0.00 / 0 votes) Rate this definition: concourse (Noun). A large open space in a building where people can gather. concourse (Noun). A large group of people; a crowd. concourse (Noun). The running or flowing together of things; the meeting of things; confluence. <P> 1 Meaning of Concursus. ( 2 Lat. from concurrere). 3 In the civil law. 4 A running together; a meeting or concurrence. 5 Concursus creditorum, the conflict or conflicting rights of creditors, in relation to their liens, privileges, and priorities, in cases of insolvency and other cases. 6 Story, Confl. 7 Laws, 325c, 433a. <P> Concur. To agree; coincide; act together. To concur is to evidence consent in an affirmative or concrete manner as opposed to merely acquiescing or silently submitting to a decision. <P> 1 The fact of two or more events or circumstances happening or existing at the same time: the incidental concurrence of two separate tumours. 1.1 [count noun] Mathematics A point at which three or more lines meet: the number of possible concurrences in the diagram. More example sentences. <P> interpleader. n. 1. (Law) a process by which a person holding money or property claimed by two or more parties and having no interest in it himself can require the claimants to litigate with each other to determine the issue. <P> con•course. 1. an assemblage; gathering: a concourse of people. 2. a boulevard or other broad thoroughfare. 3. a large open space for accommodating crowds, as in a railroad station. 4. an act or instance of coming together; confluence: a concourse of events. <P> Snippets. Latitude or Longitude either, but thought they were trying which word sounded best. Some of the gloves, and she went on, looking anxiously about as it lasted.) 'Then the Dormouse shall!' they both sat silent and looked at each other for.	The influx of divine causation upon secondary causes; especially: the doctrine that before the fall man was preserved from sin by the aid of God.
cecilia what does the name mean	<P> Look up Cecilia in Wiktionary, the free dictionary. Cecilia, which is the name of Saint Cecilia, the patron saint of music, has been a consistently used name in the United States, where it has ranked among the top 500 names for girls for more than 100 years. It was the 274th most popular name for American girls born in 2007. <P> In American the meaning of the name Cecilia is: Blind. Latin Meaning: The name Cecilia is a Latin baby name. In Latin the meaning of the name Cecilia is: Blind. Famous bearer: The blind St. Cecilie, patron saint of music, was a talented musician. English Meaning: The name Cecilia is an English baby name. In English the meaning of the name Cecilia is: A feminine form of Cecil, derived from the Roman clan name Caecilius, which is based on the Latin coccus meaning 'blind'. <P> Cecilia was thrice as popular as the 2nd ranked name, Cecelia, in 2012. Baby names that sound like Cecilia include Cecylia, Ceceli, Cecelie, Cecila, Cecilee, Ceciley, Cecilie, Cecilla, Cecillia, Cecilya, Cecilia, Cecília, Ceclia, Ceely, Ceilia, Celea, Celeasha, Celeashah, Celeesha, celeeshah And. celeisha Cecilia is popular as a baby girl name. At the peak of its usage in 1904, 0.086% of baby girls were named Cecilia. It was #190 in rank then. The baby name has experienced a decline in frequency since then, and is in recent times of modest use. <P> [ 3 syll. ce-ci-lia, cec-il-ia ] The baby girl name Cecilia is pronounced Sah-S IY L-Yah or Sah-S IY-Liy-ah (English), CHeh-CH IY-LYaa (Italian), -THeh-TH IY-LYaa (Spanish), or Seh-S IY-LYaa (Spanish-Latin American) †. Cecilia is of Latin origin. Cecilia is popular as a baby girl name. At the peak of its usage in 1904, 0.086% of baby girls were named Cecilia. It was #190 in rank then. The baby name has experienced a decline in frequency since then, and is in recent times of modest use. <P> Cecilia /ce-cil-ia/ [4 sylls.] as a girls' name is pronounced sess-SEEL-yah. It is of Latin and Old Welsh origin, and the meaning of Cecilia is blind; sixth. The name came from the Welsh name Seissylt meaning sixth. It was later used as an English form of Latin name Caecilia, feminine of Caecilius (see Cecil). The feminine form is more popular than the male form because of the blind Saint Cecilia (second or third century) virgin martyr known as the patron saint of music. The name became common among Christians during the Middle Ages when it was brought by the Normans to England, where it was commonly spelled Cecily. <P> Cecilia is generally used as a girl's name. It consists of 7 letters and 4 syllables and is pronounced Ce-ci-li-a. In the U.S. in 2014, it ranked 206 in baby name popularity for girls with 1623 occurrences. English names generally consist of a given name, middle name and family name. Many English speaking countries have fairly flexible naming laws. This allows the multicultural families that live in these countries to merge the naming conventions of their faiths or previous nationalities with their current homeland. <P> Latinate feminine form of the Roman family name Caecilius, which was derived from Latin caecus blind. Saint Cecilia was a semi-legendary 2nd-or 3rd-century martyr who was sentenced to die because she refused to worship the Roman gods. After attempts to suffocate her failed, she was beheaded. She was later regarded as the patron saint of music and musicians. Due to the popularity of the saint, the name became common in the Christian world during the Middle Ages. The Normans brought it to England, where it was commonly spelled Cecily-the Latinate form Cecilia came into use in the 18th century. <P> Cecilia is a very popular first name for women (#318 out of 4276, Top 7%) and also a very popular surname for all people (#72022 out of 150436, Top 48%). (2000 U.S. Census). Shown below is the baby name popularity of Cecilia for girls. The feminine form is more popular than the male form because of the blind Saint Cecilia (second or third century) virgin martyr known as the patron saint of music. The name became common among Christians during the Middle Ages when it was brought by the Normans to England, where it was commonly spelled Cecily. <P> Meanings and history of the name Cecilia : \| Edit. (Latin) Female name of Latin origin meaning the way for the blind.. (French) one of the shining light or one of the world. blind one. The name of Saint Cecilia, the patron saint of music. Feminine form of Cecil, which is derived from Caecilius, an old Roman family name, which has its root in the Latin caecus (blind, dim-sighted). The name was borne by a 3rd-century Christian who founded a church in the Trastevere section of Rome. <P> Origin of the name Cecilia: Feminine form of Cecil, which is derived from Caecilius, an old Roman family name, which has its root in the Latin caecus (blind, dim-sighted). The name was borne by a 3rd-century Christian who founded a church in the Trastevere section of Rome.	Blind, sixth.
how does a breathalyzer test work	<P> How To Use Your Breathalyzer. The way to get the most from your Personal Breathalyser is to use it regularly to monitor the change in your level of intoxication, rather than looking at a single specific reading. Always wait 20 minutes after drinking or smoking before testing yourself. If you've been asking yourself how does a breathalyzer work then read this short article. You 'll practically be an expert by the time you finish.The Basics. In low concentrations, alcohol reduces inhibitions. <P> A breathalyzer measures the amount of alcohol in your lungs. If you had taken a single swallow of beer right before the breathalyzer test, your breath might smell of alcohol, but the test would indicate that you were not intoxicated. Alcohol’s Affect On The Body. The answer has to do with how alcohol is distributed throughout your body. Alcohol is a very small molecule that can cross the membranes of your body’s cells quite easily. Cellular membranes do not block the movement of alcohol molecules throughout the body. <P> A breathalyzer is a device that can estimate your blood-alcohol level. If your blood-alcohol level is higher than the legal limit, you will be arrested for drunk driving. There are certain rules that vary from state to state about whether a police officer may force you to take a breathalyzer test. Refusing the Breathalyzer Test. The consequences of refusing a breathalyzer test can be severe depending on your state's laws. If you do refuse to take a breathalyzer test, you may have your license automatically suspended from 90 days all the way up to a year. Not only that, but you will be prosecuted for drunk driving and be subject to the usual types of DUI punishment, which may include fines, jail time, and community service <P> As the alcohol in the alveolar air is exhaled, it can be detected by the breath alcohol testing device. So instead of having to draw a driver's blood to test his alcohol level, an officer can test the breath on the spot and determine whether there is a reason to arrest the driver. Many officers in the field rely on breath alcohol testing devices (Breathalyzer is one type) to determine the blood alcohol concentration, referred to as BAC, in drunken-driving suspects. In this article we examine the scientific principles and technology behind these breath alcohol testing devices. Need for Testing. <P> To get the most accurate results from a breathalyzer test, wait at least 20 minutes after drinking or smoking to take the test. Blow into the machine with a slow, steady breath, trying to blow with the same force each time the test is taken. <P> One way to establish probable cause is to administer a breathalyzer test. A breathalyzer test uses a small, portable device known as a breathalyzer. This device has been approved for use by the National Highway Traffic Safety Administration. For the breathalyzer test, the officer will ask you to breath into the device. Refusing the Breathalyzer Test. The consequences of refusing a breathalyzer test can be severe depending on your state's laws. If you do refuse to take a breathalyzer test, you may have your license automatically suspended from 90 days all the way up to a year. Not only that, but you will be prosecuted for drunk driving and be subject to the usual types of DUI punishment, which may include fines, jail time, and community ser <P> A breathalyzer or breathalyser (a portmanteau of breath and analyzer/analyser) is a device for estimating blood alcohol content (BAC) from a breath sample. Breathalyzer is the brand name for the instrument that tests the alcohol level developed by inventor Robert Frank Borkenstein. It was registered as a trademark on May 13, 1954, but many people use the term to refer to any generic device for estimating blood alcohol content. Where the defendant had refused to take a subsequent blood test, the only way the state could prove BAC was by presenting scientific evidence of how alcohol in the breath gets there from alcohol in the blood, along with evidence of how to convert from one to the other. <P> It also passes through the alveoli in the lungs, and as you breath and the oxygen passes into the bloodstream, so does some of the alcohol in your blood evaporate into the air in your lungs. It is this alcohol that a Breathalyser is designed to measure. If you've been asking yourself how does a breathalyzer work then read this short article. You 'll practically be an expert by the time you finish.The Basics. In low concentrations, alcohol reduces inhibitions. <P> The rest of the device will vary with the type. Breathalyzer. The device contains a system to sample the breath of the suspect, two glass vials containing the chemical reaction mixture and a system of photocells connected to a meter to measure the color change associated with the chemical reaction. To measure alcohol, a suspect breathes into the device. Many officers in the field rely on breath alcohol testing devices (Breathalyzer is one type) to determine the blood alcohol concentration, referred to as BAC, in drunken-driving suspects. In this article we examine the scientific principles and technology behind these breath alcohol testing devices. Need for Testing.	A breathalyzer or breathalyser (a portmanteau of breath and analyzer/analyser) is a device for estimating blood alcohol content (BAC) from a breath sample.
how much does it cost to file for bankruptcy	<P> 1 The bankruptcy court filing fee is $299 for Chapter 7 and $274 for Chapter 13, but (depending on your location and circumstances) you might be eligible to apply to pay the fee in installments or have it waived. <P> The cost to file bankruptcy in Illinois varies greatly. How much does it cost to file bankruptcy in Illinois depends on whether you file Chapter 7 bankruptcy or Chapter 13 bankruptcy, and also on how complicated your case is. There is a filing fee for a Chapter 7 of $306 and the filing fee for Chapter 13 is $281. The filing fee goes to the Clerk of the court. <P> Bankruptcy filers must pay a filing fee. For a Chapter 7 case, the fee is $335. For a Chapter 13 case, the fee is $310. The Bankruptcy Trustee may charge a fee of $15 to $20 when you file, as well. <P> The cost of a Chapter 7 bankruptcy attorney varies geographically, but typically are between $800 and $2500. The fee is based on the estimated amount of time the bankruptcy attorney anticipates spending on the case. Payment plans vary, but many firms allow you to retain their services for as little as $100. <P> The us bankruptcy courts have filing fees. The cost of bankruptcy chapter 7 is a filing fee of $299, Chapter 13′s filing fee is $274. On top of that you have…. <P> The cost of a Chapter 13 bankruptcy attorney varies geographically, but the typical fee is between $2200 and $3200 for the 3-5 years that the attorney will be representing you. <P> If you file a Chapter 7 bankruptcy in North Carolina, fees range anywhere between $1,500 and $5,000. If you’re looking to file a Chapter 13 bankruptcy then fees typically run anywhere between (take a deep breath….) $4,000 and $6,000. These are standard fees.	There is a filing fee for a Chapter 7 of $306 and the filing fee for Chapter 13 is $281.
what is carburetor for	<P> The goal of a carburetor is to mix just the right amount of gasoline with air so that the engine runs properly. If there is not enough fuel mixed with the air, the engine runs lean and either will not run or potentially damages the engine. <P> Full Definition of CARBURETOR. : a mechanical apparatus for premixing vaporized fuel and air in proper proportions and supplying the mixture to an internal combustion engine. See carburetor defined for English-language learners. See carburetor defined for kids. ADVERTISEMENT. Definition of CARBURETOR for Kids. : the part of an engine in which liquid fuel (as gasoline) is mixed with air to make it burn easily. <P> A carburetor, called a carb for short, is a device used in an internal combustion engine, such as the type found in an automobile. Invented by Karl Benz in the 1800s and patented in 1886, a carburetor’s job is to mix air and fuel. All carburetors follow a basic type of construction. Basically, a carburetor consists of a tube with an adjustable plate across it. This plate is called the throttle plate and controls the amount of airflow. A narrowing in the tube is called the venturi, which creates the carburetor's vacuum. <P> A carburetor (American and Canadian spelling), carburator, carburettor, or carburetter (Commonwealth spelling) is a device that blends air and fuel for an internal combustion engine. It is sometimes colloquially shortened to carb in North America or carby in Australia. To carburate or carburet (and thus carburation or carburetion, respectively) is to blend the air and fuel or to equip (an engine) with a carburetor for that purpose. Carburetors have largely been supplanted in the automotive industry by fuel injection. A carburetor basically consists of an open pipe through which the air passes into the inlet manifold of the engine. The pipe is in the form of a Venturi: it narrows in section and then widens again, causing the airflow to increase in speed in the narrowest part. <P> The fuel and air mixture is too rich when it has an excess of fuel, and too lean when there is not enough. The mixture is adjusted by one or more needle valves on an automotive carburetor, or a pilot-operated lever on piston-engined aircraft (since the mixture changes with air density and therefore altitude). A carburetor basically consists of an open pipe through which the air passes into the inlet manifold of the engine. The pipe is in the form of a Venturi: it narrows in section and then widens again, causing the airflow to increase in speed in the narrowest part. <P> Getting the fuel-air mixture just right is the job of a clever mechanical gadget called a carburetor: a tube that allows air and fuel into the engine through valves, mixing them together in different amounts to suit a wide range of different driving conditions. In summary, then, here's how it all works: 1 Air flows into the top of the carburetor from the car's air intake. 2 When the engine is first started, the choke (blue) can be set so it almost blocks the top of the pipe to reduce the amount of air coming in (increasing the fuel content of the mixture entering the cylinders). <P> To overcome these problems other systems are used. Delivering gasoline to the carburetor Gasoline is delivered to the carburetor by the fuel pump and is stored in the fuel bowl. To keep this level of fuel stored in the bowl constant under all conditions a float system is used. A float operated needle valve and seat at the fuel inlet is used to control the fuel level in the bowl. How a carburetor mixes fuel and air. When the piston moves down the cylinder on the intake stroke it draws air from the cylinder and intake manifold. A vacuum is created that draws air from the carburetor. <P> Engines need fuel, but also need proper amounts of oxygen to burn the fuel. Carburetors mix air and fuel in the proper amounts to ensure efficient combustion in the engine.	A device that blends air and fuel for an internal combustion engine.
best cleaning solution to get rid of cigarette smell	<P> Smoke Smell Removal. There’s something about vinegar that gets rid of smoke smell. Because the smell of smoke is caused by the leftover resins and tars, vinegar (an acid that cuts through resin and tar) is a great way to clean those surfaces that aren’t made of fabric, and perhaps, some that are fabric. If it doesn’t have a cleaning agent in it, you’re not going to get rid of the smoke smell. Scent-generating deodorizers only serve to mask the smell. Once you take them out of the house, you’ll notice the smell of old cigarettes again. Of course, we’ve all heard of Febreze, and wonder why it works. <P> Cigarette and cigar smoke penetrates furniture, carpets, walls, windows, painted surfaces, and just about every other nook and cranny in our homes. Smoking in a home leaves a tar residue on everything in the home. the best way to get rid of the smell is to get rid of the tar residue. 1 Try sprinkling baking soda on the carpets to soak up the odor. 2 Devise a system that pulls the smoky air outside of your home so it doesn't have time to set on your surroundings such as smoking in front of an extractor fan that is set to expel air from the room. <P> Removing Cigarette Odors from the Car: Fresh air will work wonders. You can shampoo the floor mats, carpet and upholstery. Use Windex and clean the inside windows and use the appropriate cleaning solution to clean the dash board and seats. It's one of the best gifts you can give to yourself. One of best ways to stay quit is to spend a few hours removing the odor of cigarette smoke. Once you realize how much better your home, clothes and car smell without that stinky odor, you'll never want another cigarette again. Your first task: Throw away the ashtrays. <P> Use scented baking soda if you like. Shades, curtains, and fixtures need to be cleaned to get rid of smoke odor. A lot of people forget to clean things like shades, chandeliers, curtains, and wall hangings, but these things have probably collected quite a bit of tar and resin from years of hanging smoke. If it doesn’t have a cleaning agent in it, you’re not going to get rid of the smoke smell. Scent-generating deodorizers only serve to mask the smell. Once you take them out of the house, you’ll notice the smell of old cigarettes again. Of course, we’ve all heard of Febreze, and wonder why it works. <P> Thankfully, there are appropriate solutions that you can use to deal with smoke odor. Specifically, there are ingredients found around your home or garden that you can use to get rid of smoke odor. The irritating scent will be gone in no time if you know how to use these homemade solutions. You can place apple cider vinegar or just conventional white vinegar in a bowl. Put it in the corners around your home or any space where the pesky smoke odor lingers. Vinegar is a good agent to remove almost any awful scent. Trust old, faithful vinegar-cider or white vinegar. <P> The Ammonia Method. Ammonia can also remove cigarette tar and nicotine from walls when mixed with water. Combine a tablespoon of ammonia for every cup of water, or roughly 1/2 cup of ammonia to a gallon of warm water. For painted walls, reduce the mixture to 1/4 cup to a gallon of water <P> I have a stale smell of fire smoke left in my sitting room and I can't get rid of the smell. Clean the hard surfaces and walls thoroughly with 1 gallon of water, 4 tablespoons of baking soda and a few drops of dish detergent. Shampoo the carpet, or sprinkle it with baking soda, let it sit for an hour, then vacuum. You can place apple cider vinegar or just conventional white vinegar in a bowl. Put it in the corners around your home or any space where the pesky smoke odor lingers. Vinegar is a good agent to remove almost any awful scent. Trust old, faithful vinegar-cider or white vinegar. <P> 1 An ozone generator will, apparently, get rid of any odor you can think of if it's left on long enough in a closed house or apartment. 2 For a quick fix to a tobacco smell which is not too engrained try placing a pot filled with water in your oven and put about five or six drops of vanilla essence into the water. 1 Try sprinkling baking soda on the carpets to soak up the odor. 2 Devise a system that pulls the smoky air outside of your home so it doesn't have time to set on your surroundings such as smoking in front of an extractor fan that is set to expel air from the room. <P> All of these solutions can remove the cigarette stink from the walls, but the smell may linger inside the home and recontaminate the walls if you forget to clean the filters for the home's HVAC system. As you clean the walls, ventilate the house thoroughly. Ammonia can also remove cigarette tar and nicotine from walls when mixed with water. Combine a tablespoon of ammonia for every cup of water, or roughly 1/2 cup of ammonia to a gallon of warm water. <P> How to remove cigarette odor from a car. Step No 4. Extract the residues (hot water and smoke odor control product) with your wet vac (I use the small wand for this as shown below). get rid of smoke smell get rid of smoke smell. Step No 5. Finish with very hot water again and leave to dry.	vinegar, Ammonia mixed with water,baking soda and an ozone generator
how does merry maids work	<P> Merry Maids is a subsidiary of industry giant ServiceMaster.At Merry Maids®, our House Cleaning Associates do so much more than clean clients’ homes. They build trust and confidence with our clients. Because we know that the people of Merry Maids® are the backbone of our business, and it’s important that we take care of them just as they do our customers. Our associates are critical to our success in reinventing our customer experience, and in helping us to become the industry leader we strive to be. <P> Merry Maids cleaning services are available weekly, every other week, monthly or one-time, special event services. Merry Maids' team dusts, vacuums, washes and sanitizes each room. They use their own equipment and products. There are usually at least two cleaners in your home at a time. Merry Maids is one of the largest home cleaning networks in the world. Merry Maids home cleaning services are available weekly, every other week, monthly or a one-time cleaning. On every visit, your Merry Maids team of at lest two people dusts, vacuums, washes and sanitizes each room <P> Read More. Merry Maids Inc offers employees an average of $10.40 per hour, and overtime earnings push that number up to $12.21. What you do at the company influences pay for Merry Maids Inc workers the most, followed by your experience level. The data in this summary comes from the PayScale salary survey. Employer: Merry Maids Inc. Hourly Rate Range by Job. Check salary info for your own job ». Job. National Hourly Rate Data <P> Merry Maids is happy to scrub, straighten, and sanitize. Founded in 1979, home cleaning company Merry Maids has more than 600 franchises in the US and Canada and cleans more than 300,000 residences a month. The company also has operations in Hong Kong, Japan, South Korea, Malaysia, the Philippines, and the UK. Because we know that the people of Merry Maids® are the backbone of our business, and it’s important that we take care of them just as they do our customers. Our associates are critical to our success in reinventing our customer experience, and in helping us to become the industry leader we strive to be. <P> Most Merry Maid offices have a special cleaning service that they offer to people who live in an apartment or condominium. For these packages you will get an additional discount if more than one person from the same building requests their services. Merry Maids is one of the largest home cleaning networks in the world. Merry Maids home cleaning services are available weekly, every other week, monthly or a one-time cleaning. On every visit, your Merry Maids team of at lest two people dusts, vacuums, washes and sanitizes each room <P> I also want... show more I have a maid service clean my 5,000 sq foot, 5 bedroom 4 bath house. I just want a ballpark figure on how much the merry maids cost. Not someone to tell me to do it myself or to hire someone out of the paper. Also, anyone know of any good lawn care companies that mow, trim, and garden once a week. <P> Merry Maids put their employees on a time schedule for each home. With a two person team they give you one hour and 30 mins to clean a home, if you go over that time, your pay gets deduct every 15 mins you go over-this is why the cleaners do not do a good job. Merry Maids will give you set hours but will work you over that time and not fully pay you. It takes me 3 hours to clean it, and it was just cleaned the day before Merry Maids came to my home for an estimate, which was: 1st cleaning: $819.13, every cleaning thereafter: $445.12. The estimate is so ridiculous it doesn't even warrant a comment! Do not call them.	Put their employees on a time schedule for each home. With a two person team they give you one hour and 30 mins to clean a home, if you go over that time, your pay gets deduct every 15 minutes.
how long can the average person hold their breath	<P> On an average, a person can hold his or her breath underwater for a very short period of time that is approximately between 45 seconds and 75 seconds (or one minute and fifteen seconds). Best Answer: People tend to hold their breath for a longer period of time when they are underwater then they do when they are on land. The current world record for breathing underwater stands at a mere two seconds short of nine minutes, that is at eight minutes and 58 seconds. <P> The current record for holding breath underwater is 8 minutes, 58 seconds. The average person can hold it a lot less. [ Source: http://www.chacha.com/question/how-long-can-an-average-person-hold-their-breath ]. More Answers to How long can an average person hold their breath . http://wiki.answers.com/Q/How_long_can_the_average_person_hold_their_breath_under_water. The average person can hold there breath for about 30 to 40 seconds, not that long uh. But some people mainly free divers who have been diving for a long period of time their lungs and heart have expanded and got used to holding their breat.. <P> Rating Newest Oldest. Best Answer: 30-45 seconds is not how much you can hold your breath it is how long you are willing to hold your breath. Most people 'can' hold their breath for at least 4 minutes before passing out. This can easily be extended past 6+ minutes with practice. HOWEVER, most people only have enough willpower to go between 30 seconds to 1 minute. I have personally achieved times of 5 minutes max. <P> · just now. Report Abuse. An average person can hold it for 2 to 3 minutes, whereas a person has a record of 5 minutes holding his breath. It depends on person to person, But as mentioned the average is 2 to 3 minutes. Source(s): http://ppvsportslive.info/. <P> Many freedivers can hold their breath 8-10 min. Though most people can only hold their breath for around 1 min. On the set of The Oprah Winfrey Show on April 30, 2008, David Blaine broke the world record by holding his breath for 17 minutes and 4 seconds. <P> Chances are you won't need to hold your breath for 20 minutes in your lifetime, or even 5 minutes. But the capacity to improve how long you can hold it now into something that seems, on the surface, totally unrealistic remains fascinating. And you probably remember David Blaine sitting in a bubble for 17 minutes 4 seconds. That is far longer than the 30 or 40 seconds most of us can hold for, to a really phenomenal degree. <P> The current record for pure breath-holding is 22 minutes, set by Stig Severinson in May of last year. And you probably remember David Blaine sitting in a bubble for 17 minutes 4 seconds. That is far longer than the 30 or 40 seconds most of us can hold for, to a really phenomenal degree. <P> The average person can hold there breath for about 30 to 40 seconds, not that long uh. The average time is around 30 - 40 seconds, but many people can hold it for longer and shorter amounts of time. <P> Answer by Tbones1119. Confidence votes 69. The average person can hold there breath for about 30 to 40 seconds, not that long uh. But some people mainly free divers who have been diving for a long period of time their lungs and heart have expanded and got used to holding their breath for longer times. The average time is around 30 - 40 seconds, but many people can hold it for longer and shorter amounts of time.	30 to 40 seconds.
what makes a gas dissolve faster	<P> 1 Gases can dissolve in water. 2 The dissolving of a gas in water depends on the interaction between the molecules of the gas and the water molecules. 3 The amount of gas that can be dissolved in water depends on the temperature of the water. 4 More gas can dissolve in cold water than in hot water. CO2 is soluble because water molecules are attracted to these polar areas. The bond between carbon and oxygen is not as polar as the bond between hydrogen and oxygen, but it is polar enough that carbon dioxide <P> As the sugar molecules spread evenly throughout the water, the sugar dissolves. Mixing a liquid in a gas makes another type of solution, called a gaseous solution. An example of this type of solution is humidity. Humidity is water (a liquid) dissolved in air (a gas). And when the excessive solute has been dissolved by heating the solution, it's said to be supersaturated. The point of this experiment, in addition to learning whether salt or sugar dissolves faster in various liquids, is to learn how molecules interact in a solution. <P> When you wish to dissolve a solid in a liquid faster, you increase the temperature. This makes the solid particles move faster and farther, and thus dissolve in the liquid fas … ter. Henry's law states that the solubility of a gas is directly proportional to the partial pressure of that gas over the liquid. The higher the partial pressure, the more gas will be dissolved-- that's why your blood boils in a vacuum; there's not enough pressure to keep the gas in it dissolved. <P> A solute is the substance—either a solid, liquid or gas—that gets dissolved. A solvent —which also can be a solid, liquid, or gas—is the substance that does the dissolving. A solution is a uniform mixture of a solute (usually a solid) dissolved in a solvent (usually a liquid). And when the excessive solute has been dissolved by heating the solution, it's said to be supersaturated. The point of this experiment, in addition to learning whether salt or sugar dissolves faster in various liquids, is to learn how molecules interact in a solution. <P> You can make a solid dissolve faster in water that; 1. Stirring the mixture, the solid dissolves faster, that doesn't effect amount of resolition 2. The warmer the water, the faster the water molecules move, thus enabling them to pull apart the solid faster. 2. Stirring the mixture (this gets more of the water in contact with the solid, faster). 3. If it's not already done, breaking the solid up into smaller particles. <P> Answer by Carlos Ayala. Confidence votes 1.5K. When you wish to dissolve a solid in a liquid faster, you increase the temperature. This makes the solid particles move faster and farther, and thus dissolve in the liquid faster. However, the problem with dissolving a gas is the opposite: gas particles already are moving fast and far, to the point where it is difficult to keep them stay in the liquid. The opposite is thus done, lower the temperature. <P> 1 For a liquid to dissolve a solid, the molecules of the liquid and solid must attract one another. 2 The bond between the oxygen and hydrogen atoms (O–H bond) in sugar (sucrose) gives the oxygen a slight negative charge and the hydrogen a slight positive charge. 3 Sucrose is a polar molecule. Key Concepts. 1 <P> 1 The dissolving of a gas in water depends on the interaction between the molecules of the gas and the water molecules. 2 The amount of gas that can be dissolved in water depends on the temperature of the water. CO2 is soluble because water molecules are attracted to these polar areas. The bond between carbon and oxygen is not as polar as the bond between hydrogen and oxygen, but it is polar enough that carbon dioxide can dissolve in water. <P> When you dissolve sugar or salt in a liquid-say, water-what happens is that the sugar molecules move to fit themselves between the molecules of water within a glass or beaker. The illustration below shows how the different molecules are arranged in the container. The point of this experiment, in addition to learning whether salt or sugar dissolves faster in various liquids, is to learn how molecules interact in a solution. As you saw in the preceding illustration, the water molecules take up most of the room <P> The illustration below shows how the different molecules are arranged in the container. A solute, such as sugar, dissolved in a solvent, such as water, results in a liquid solution. In your experiment, you'll see how salt and sugar molecules move within different liquids and dissolve at different rates. And when the excessive solute has been dissolved by heating the solution, it's said to be supersaturated. The point of this experiment, in addition to learning whether salt or sugar dissolves faster in various liquids, is to learn how molecules interact in a solution.	Gas particles already are moving fast and far, to the point where it is difficult to keep them stay in the liquid. Thus lower the temperature dissolve faster.
the biblical meaning of the name simon	<P> Origin-Hebrew. Nine men have this name in the Bible. Simon was the original name of the apostle Peter.Also, the name of one of the legal brothers of Jesus Christ. Simon of Cyrene was chosen to help bear the cross on which Jesus was crucified. <P> [ 2 syll. si-mon, sim-on ] The baby boy name Simon is pronounced as S AY-MahN in English, Siy-M AO N in French, or Z IY-MaoN in German †. Simon is used chiefly in the English, French, German, and Spanish languages, and its origin is Hebrew. The name is of the meaning he who hears, God has heard. A biblical name, it is derived from the element 'shama' which means to hear. Shimon (Hebrew) and Simeon (Hebrew) are older forms of Simon. <P> Meaning of Simon. English name. In English, the name Simon means-Variant of a Hebrew name meaning hear; listen. In the bible Simon was the name of two apostles including Simon Peter.. Other origins for the name Simon include-English, Israeli, Hebrew.The name Simon is most often used as a boy name or male name. <P> In the Bible, Simon was the second son of Jacob and Leah and the original name of Saint Peter, as well as the name of several New Testament figures. Historically, Simon Bolivar is known as The Liberator of Latin America. <P> Simon /si-mon/ [2 sylls.] as a boys' name is pronounced SYE-mun. It is of Hebrew origin, and the meaning of Simon is to hear, listen; reputation. Biblical: Simon was the name of two of the apostles, including Simon Peter. A common name from the Middle Ages through the 18th century. Orchestra conductor Simon Rattle; Latin American freedom fighter Simon Bolivar. <P> Simon is the English form of the Hebrew name Simeon which means ‘hearkening’. The name is borne by several characters in the Bible, in both the Old and New Testaments. Simeon was Jacob’s second-born son in Genesis, one of the eleven brothers of Joseph, and the one most responsible for selling him into slavery. <P> Greek Meaning: The name Simon is a Greek baby name. In Greek the meaning of the name Simon is: Snub-nosed. Can also be a variant of a Hebrew name meaning 'hear; listen.' In the bible Simon was the name of two apostles including Simon Peter. Hebrew Meaning: The name Simon is a Hebrew baby name. <P> From σιμων (Simon) , the New Testament Greek form of the Hebrew name שִׁמְעוֹן (Shim'on) which meant he has heard. This was the name of several biblical characters, including the man who carried the cross for Jesus. However, the most important person of this name in the New Testament was the apostle Simon, also known as Peter (a name given to him by Jesus). Because of him, this name has been common in the Christian world. <P> Simon is a common name, from Hebrew שִׁמְעוֹן Šimʻôn, šimʻôn Meaning (He) god has.. Heard some authors consider it a Classical greek. Name commentators on The New testament question the origin of the, name assuming that it can be either a hellenised form of The Hebrew'shim, on or a Real greek. name <P> The name Simon in the Bible. The name Simon is the Hellenized version of the name Simeon (in Greek: συμεων; in Hebrew: שמעון) and there are nine Simons mentioned in the New Testament: 1 One of the two first disciples of Jesus, later mostly known as Peter (Matthew 4:18). The Greek name Simon is an adjusted version of the name Simeon, and that name comes from the common Hebrew verb שמע (shama'), meaning to hear: Abarim Publications Theological Dictionary. Follow the link to learn all about: שמע.	God has heard
what does deluge mean	<P> Wiktionary (0.00 / 0 votes) Rate this definition: deluge (Noun). A great flood or rain. The deluge continued for hours, drenching the land and slowing traffic to a halt. deluge (Noun). An overwhelming amount of something. The rock concert was a deluge of sound. deluge (Verb). To flood with water. <P> Definition Edit. The data deluge refers to the situation where the sheer volume of new data being generated is overwhelming the capacity of institutions to manage it and researchers to make use of it. The ability to generate vast quantities of data is outpacing the development of infrastructures and tools adequate to support data-driven 21st century science and technology. <P> The noun DELUGE has 3 senses: 1. an overwhelming number or amount. 2. a heavy rain. 3. the rising of a body of water and its overflowing onto normally dry land. Familiarity information: DELUGE used as a noun is uncommon. • DELUGE (verb). The verb DELUGE has 3 senses: 1. fill quickly beyond capacity; as with a liquid. 2. charge someone with too many tasks. 3. fill or cover completely, usually with water. Familiarity information: DELUGE used as a verb is uncommon. Hypernyms (deluge is a kind of...): geological phenomenon (a natural phenomenon involving the structure or composition of the earth). Hyponyms (each of the following is a kind of deluge): debacle (flooding caused by a tumultuous breakup of ice in a river during the spring or summer). flash flood; flashflood (a sudden local flood of great volume and short duration) <P> : a large amount of rain that suddenly falls in an area. : a situation in which a large area of land becomes completely covered with water. : a large amount of things that come at the same time. <P> A deluge fire sprinkler system, unlike most ordinary systems, mean that the sprinkler heads do not have individual heat-sensitive valves. The sprinkler heads in a deluge syste … m have no valves of their own, meaning they are always open and water will be sprayed out of them when the supply valve is turned on. Making the world better, one answer at a time. The Scarlet Deluge means a red flood (basically blood) The Scarlet Deluge means a red flood (basically it means alot of blood). <P> A big or large amount of something. i.e-in came the deluge of people. Delugein French is Flood in English-a LOT of water coming down! 1 fill quickly beyond capacity; as with a liquid; the basement was inundated after the storm; The images flooded his mind. 2 flood: an overwhelming number or amount; a flood of requests; a torrent of abuse. 3 overwhelm: charge someone with too many tasks. <P> A deluge fire sprinkler system, unlike most ordinary systems, mean that the sprinkler heads do not have individual heat-sensitive valves. 1 fill quickly beyond capacity; as with a liquid; the basement was inundated after the storm; The images flooded his mind. 2 flood: an overwhelming number or amount; a flood of requests; a torrent of abuse. 3 overwhelm: charge someone with too many tasks. <P> Synonyms. 1 And then the heavens opened, releasing a deluge of heavy rain that had all three of us scrambling to be the first back in the house. 2 The game ended in a deluge of rain and sleet but to the credit of both teams they continued to play positive football to the end. 1.1 (the Deluge) The biblical Flood (recorded in Genesis 6-8): the world appeared to be emerging still from the waters of the Deluge. More example sentences. 1 A proper interpretation of the rocks arid fossils speaks of a global, dynamic, watery catastrophe: the biblical Deluge.	A deluge fire sprinkler system, unlike most ordinary systems, mean that the sprinkler heads do not have individual heat-sensitive valves.
how to use iserror	<P> For example, =ISERROR(A1) will return TRUE if A1 is is displaying an one of the errors mentioned above, and FALSE if not. Frequently, value is supplied as a cell address, but you can use it to trap errors inside more complex formulas as well. <P> Follow. In this article, we will learn how to use ISERROR function along with VLOOKUP function to ignore the error as result in Microsoft Excel. Considering we have this situation where we want to create a formula to check for each successful search. The formula should return that number, when the match is found. And, if an exact match is not found, the formula should return a text message to that effect, rather than an error in Microsoft Excel. If it is error in Excel Vlookup formula, we will use IF, Iserror and Vlookup function to prevent the #N/A error. Let’s take an example to understand how we can prevent a Vlookup function from returning an error when an exact match is not <P> In earlier versions of Excel, we have a formula called as ISERROR() that can check an expression or formula for error and return TRUE if so. This formula is not same as IFERROR, but we can use it along with IF() formula to get the same result. For eg. <P> I think the formula does have an error in it. If you use the IF(ISERROR) function, to check for an #REF error, the function needs to be of the type; =IF(ISERROR(B6),error,B6). In that example, B6 refers to cell A1 in another sheet which I made to be non-existant, hence B6 shows #REF. So, I then put this forumla into D6. What it does is this. If False, then the value of B6 is displayed. You can use this. The data is imported into a range of cells, then copied using the ISERROR function into another range. Then use the 2nd range to do your checking and calculating, and referencing for the other sheets. <P> Note that when there is an error condition in B5, ISERROR(B5) would return the result TRUE. Therefore, as a second step, in cell B5, you want to insert an IF function that uses an excel ISERROR function to find out if an error or a valid result would be returned by the VLOOKUP that you already tested. To improve the situation, you can place the VLOOKUP function in an IF function, and then let it execute only if the VLOOKUP function will not return an error. You can use the excel ISERROR function to detect any error condition and on that basis carry out your own action. This may sound more complicated than it is. <P> This example illustrates the ISERROR function in Excel. 1. For example, Excel displays the #DIV/0! error when a formula tries to divide a number by 0. The ISERROR function checks whether a value is an error and returns TRUE or FALSE. 2. Use the IF and the ISERROR function. If a cell contains an error, the value 5 is returned <P> Use Excel's ISERROR function. The ISERROR function generally refers to cell references, not hard numbers. Say you want to find out if the range of cells A1:A14000 contains an error. Click your mouse on a blank cell and type the following formula: =ISERROR(A1:A14000). Don't put a period at the end of the function formula. Press Enter.. If Excel finds an error in this range of cells, it displays TRUE.. <P> For example, you can use the ISERROR function in conjunction with the IF function to perform a different action if an error occurs: = IF(ISERROR(A1), An error occurred., A1 * 2). This formula checks to see if an error condition exists in A1. If so, the IF function returns the message An error occurred.. If no error exists, the IF function performs the calculation A1*2.	In earlier versions of Excel, we have a formula called as ISERROR() that can check an expression or formula for error and return TRUE if so
what are the specialized cells of the epidermis called that produce the dark pigment that provides skin color	<P> This thin, most superficial layer of the skin forms the interface with the external environment and has special protective functions. 1 Melanocytes. 2 These cells produce a dark pigment called melanin which contributes to skin color and provides UV protection. Melanocytes and Langerhans cells are other important cells found in the epidermis which have special functions. Dermis. The dermis consists mostly of connective tissue and is much thicker than the epidermis. <P> Scattered among the keratinocytes in the epidermis are melanocytes, cells that produce a dark pigment called melanin. This pigment gives color to the skin and protects it from the sun s ultraviolet rays. After being produced in the melanocytes, packets of melanin called melanosomes transfer to the keratinocytes. Anatomy Of The Skin. The skin consists of an outer, protective layer (epidermis) and an inner, living layer (dermis). The top layer of the epidermis is composed of dead cells containing keratin, the horny protein that also makes up hair and nails. Skin, outer body covering of an animal. <P> The epidermis has several strata (layers) that contain four cell types. Keratinocytes produce keratin, a protein that gives skin its strength and flexibility and waterproofs the skin surface. Melanocytes produce melanin, the dark pigment that gives skin its color. Merkel's cells are probably involved with touch reception. The deepest layer of the epidermis, the stratum basale, is a single layer of cells resting on a basement membrane (layer between the dermis and epidermis). The stratum basale cells divide continuously. As new cells form, older ones are pushed toward <P> 1 These cells produce a dark pigment called melanin which contributes to skin color and provides UV protection. 2 They are located at the bottom of the epidermis. 3 Dendritic (Langerhans) cells. 4 These cells are involved in the epidermal immune system. Melanocytes and Langerhans cells are other important cells found in the epidermis which have special functions. Dermis. The dermis consists mostly of connective tissue and is much thicker than <P> Melanocytes /mɛˈlaenɵsaɪt/ mɛˈlænɵsaɪt are-melanin producing cells located in the bottom (layer the stratum) basale of the'skin s, epidermis the middle layer of the (eye the), uvea the inner, ear, meninges, bones and. Heart melanin is the pigment primarily responsible for skin. color Melanocytes /mɛˈlaenɵsaɪt/ mɛˈlænɵsaɪt are-melanin producing cells located in the bottom (layer the stratum) basale of the'skin s, epidermis the middle layer of the (eye the), uvea the inner, ear, meninges, bones and. heart <P> Specilized cells in the epidermis called melanocytes produce melanin, a dark pigment that provides skin color. Melanin absorbs ultraviolet radiation in sunlight and preventing mutations in the DNA of skin cells and other damaging effects. Differences in skin color result from differences in the amount of melanin that melanocytes produce and the distribution and size of pigment granules. Skin color is genetically determined. <P> Epidermis. The epidermis is the outermost layer of the skin. It is primarily made up of cells called Keratinocytes, which are stacked on top of each other, forming several sub-layers. Other cells found in the epidermis are Melanocytes and Dendritic cells. <P> Skin color is due primarily to the presence of a pigment called melanin, which is controlled by at least 6 genes. Both light and dark complexioned people have melanin. However, two forms are produced--pheomelanin, which is red to yellow in color, and eumelanin, which is dark brown to black. In lighter skin, color is also affected by red cells in blood flowing close to the skin. To a lesser extent, the color is affected by the presence of fat under the skin and carotene, a reddish-orange pigment in the skin. Hair color is also due to the presence of melanin. <P> Through a process called melanogenesis, these cells produce melanin, which is a pigment found in the skin, eyes, and hair. This melanogenesis leads to a long-lasting pigmentation, which is in contrast to the pigmentation that originates from oxidation of already-existing melanin. Melanocytes /mɛˈlaenɵsaɪt/ mɛˈlænɵsaɪt are-melanin producing cells located in the bottom (layer the stratum) basale of the'skin s, epidermis the middle layer of the (eye the), uvea the inner, ear, meninges, bones and. heart <P> Melanin is normally located in the epidermis, or outer skin layer. It is produced at the base of the epidermis by specialized cells called melanocytes. These cells have photosensitive receptors, similar to those in the eye, that detect ultraviolet radiation from the sun and other sources. In lighter skin, color is also affected by red cells in blood flowing close to the skin. To a lesser extent, the color is affected by the presence of fat under the skin and carotene, a reddish-orange pigment in the skin. Hair color is also due to the presence of melanin.	Melanin absorbs ultraviolet radiation in sunlight and preventing mutations in the DNA of skin cells and other damaging effects.
what is the amount of sodium recommended per day	<P> Recommended intake of sodium. It is recommended that people over the age of one year eat between 1000-1500 mg sodium per day. This is referred to as the Adequate Intake (AI) . People aged 14 and over should not eat more than 23 <P> The recommendation for sodium intake is less than 2,300 mg/day for adults. This equals about one teaspoon of table salt. Most people consume far too much sodium through processed foods and table salt, therefore, this recommendation is set at an upper limit. <P> Most Canadians consume far more sodium than is needed. The recommended amount per day is between 1500 mg (considered adequate intake) and 2300 mg (upper amount) for people 9 -50 years of age. For people over 50 years of age, an adequate intake drops to 1300 mg per day until 70 and then 1200 mg over 7 <P> Upper Limit. The “Dietary Guidelines for Americans 2010” addresses sodium intake in detail. The average daily sodium intake for Americans is 3,400 milligrams per day, an excessive amount that raises blood pressure and poses health risks. In general, Americans should limit daily sodium consumption to 2,300 milligrams, but this is an upper safe limit, not a recommended daily allowance. Even active people who lose lots of sodium through sweating require no more than 1,500 milligrams of sodium per day. <P> The Institute of Medicine, part of the National Academy of Sciences, issued a report that lowered the recommended daily amount of sodium. Previously, the daily allowance was 2500 milligrams, but it has been lowered to 1500 milligrams per day.	The recommended amount per day is between 1500 mg (considered adequate intake) and 2300 mg (upper amount) for people 9 -50 years of age.
uses for potassium salts	<P> Phosphate salts containing sodium, potassium, aluminum, or calcium are LIKELY SAFE for most people when taken by mouth short-term, when sodium phosphate is inserted into the rectum appropriately and short-term, or when potassium phosphate is used intravenously (by IV) under the supervision of a physician. <P> Potassium salt is often used as a substitute for regular sodium chloride salt (the salt you find on your kitchen table), and for good reason. Most people in the United States take in too much salt on a daily basis, which may put them at risk for hypertension, heart attacks and strokes. <P> 1 Potassium chloride is used to stop the heart. 2 This is used for heart surgery (where the heart is stopped and re-started) and lethal injections. 3 Rochelle salt, which contains potassium, is the main component in baking powder. 4 It is also used to coat glass with silver. <P> Potassium is a mineral that plays many critical roles in the body. Food sources of potassium include fruits (especially dried fruits), cereals, beans, milk, and vegetables. Potassium is used for treating and preventing low potassium levels. It is also used to treat high blood pressure and prevent stroke. <P> The Diamond Crystal 40 lb. Potassium Chloride Water Softening Pellets are a sodium substitute for use in most water softeners. They have a low insolubility with up to 99.1% purity of the salt. <P> Sodium bisulfate is a salt which is used widely with potassium dichromate in bleach used for photographic purposes. It is a skin irritant and must be used with caution. If skin is exposed, wash with running water for 15 minutes. It is poison, so if ingested do not induce vomiting but seek immediate medical attention. <P> The greatest demand for potassium compounds is in fertilisers. Many other potassium salts are of great importance, including the nitrate, carbonate, chloride, bromide, cyanide and sulfate. Potassium carbonate is used in the manufacture of glass. Potassium hydroxide is used to make detergent and liquid soap. Potassium chloride is used in pharmaceuticals and saline drips. <P> Table salt and foods rich in iodine do not contain enough iodine to block radioactive iodine from getting into your thyroid gland. Do not use table salt or food as a substitute for KI. Do not use dietary supplements that contain iodine in the place of KI (potassium iodide).	Potassium salt is often used as a substitute for regular sodium chloride salt (the salt you find on your kitchen table), and for good reason.
different types of vitamin c	<P> It is so easy these days to choose a Vitamin C supplement suited to your own needs, lifestyle and budget as there are a variety of different forms of Vitamin C available. This is pure Vitamin C and has a sharp taste. Thank you for taking time to read this information about the different types of Vitamin C. Here's to your good health.........naturally! Nadine Masseron ND DN MRN is a registered naturopathic physician and clinical nutritionist. She is dedicated to increasing awareness about the benefits of natural health. <P> Calcium Ascorbate is ascorbic acid bound to calcium, providing a non-acidic form of Vitamin C that is gentle on the digestive system. Calcium Ascorbate also provides a supplemental form of calcium. Magnesium Ascorbate is acsorbic acid bound to magnesium. Thank you for taking time to read this information about the different types of Vitamin C. Here's to your good health.........naturally! Nadine Masseron ND DN MRN is a registered naturopathic physician and clinical nutritionist. She is dedicated to increasing awareness about the benefits of natural health. <P> Available forms of vitamin C supplements include powders that can be dissolved in water, tablets, capsules, and flavored drink mixes. Dosages can vary widely, ranging from 25 milligrams to upward of 1,500 milligrams, and even timed-release versions are offered. <P> Ester C is a patented formulation of Vitamin C in the Calcium Ascorbate form that makes it easily absorbable as well as non-acidic. It is a top of the range product and highly recommended for maximum, rapid absorption and for taking large doses. It is also the most expensive type of Vitamin C. A powder form of Vitamin C will be more rapidly absorbed, as it does not have to be digested first. A powder form of Vitamin C will not contain any added tableting agents. A Vitamin C tablet can be buffered to make it more gentle on the stomach. Thank you for taking time to read this information about the different types of Vitamin C. Here's to your good health.........naturally! Nadine Masseron ND DN MRN is a registered naturopathic physician and clinical nutritionist. She is dedicated to increasing awareness about the benefits of natural health. <P> Here’s how that works. These two forms of Vitamin C – Ascorbic Acid and Calcium Ascorbate – cause different pH reactions in different Metabolic Types. For example, Calcium Ascorbate balances the pH of certain Metabolic Types, but unbalances other types. And the same is true of Ascorbic Acid – it balances certain types and unbalances others. Vitamin C is a powerful antioxidant that helps with the immune system and other metabolic processes. It has been shown that vitamin C is an essential building block of collagen, which builds bone, skin, blood vessels and other tissues. <P> Vitamin C with bioflavonoids. Bioflavonoids or flavonoids are polyphenolic compounds found in plants. Vitamin C-rich fruit and vegetables, especially citrus fruit, are often rich sources of flavonoids as well. The effect of bioflavonoids on the bioavailability of ascorbic acid has been recently reviewed (7) . Mineral ascorbates are available in the following forms: 1 Sodium ascorbate: 1,000 mg of sodium ascorbate generally contains 111 mg of sodium. 2 Calcium ascorbate: Calcium ascorbate generally provides 90-110 mg of calcium (890-910 mg of ascorbic acid) per 1,000 mg of calcium ascorbate. <P> Fruits and vegetables contain ascorbic acid. Some great sources of this vitamin C in fruits include oranges, cantaloupe, papaya, grapefruit, lemons and limes, pineapple, watermelon, kiwifruit and strawberries. Vitamin C is a powerful antioxidant that helps with the immune system and other metabolic processes. It has been shown that vitamin C is an essential building block of collagen, which builds bone, skin, blood vessels and other tissues. <P> Dietary supplements. Supplements typically contain vitamin C in the form of ascorbic acid, which has equivalent bioavailability to that of naturally occurring ascorbic acid in foods, such as orange juice and broccoli [ 13-15 ]. Other forms of vitamin C supplements include sodium ascorbate; calcium ascorbate; other mineral ascorbates; ascorbic acid with bioflavonoids; and combination products, such as Ester-C®, which contains calcium ascorbate, dehydroascorbate, calcium threonate, xylonate and lyxonate [ 16 ]. <P> Types Of Vitamin C. There are different types of Vitamin C’s available in serums. Here’s a review of all the most popular formulations available on the market today. L-Ascorbic Acid. This water soluble form of Vit C is available in some of the most popular formulas including Skinceuticals CE Ferulic and Phloretin CF. <P> Collagen is a type of protein found in many different types of tissue, such as skin, blood vessels, bones and cartilage. Without vitamin C, collagen can't be replaced and the different types of tissue break down, leading to the symptoms of scurvy. These include: 1 muscle and joint pain. 2 tiredness. 3 the appearance of red dots on the skin. 4 bleeding and swelling of the gums	- ascorbic acid, -with bioflavonoids, -mineral ascorbates, -Ester-C®.
how do you add decimals and fractions	<P> Adding Fractions and Decimals-To add fractions to decimals, convert one or the other to a fraction or decimal, find the common denominator is you're solving the problem with fractions and it's needed, and add. <P> It's so easy that it will only take up a fraction of your time: just use multiplication to make the denominators the same. Oh, and make sure to do whatever you did to the denominator to the numerator, too. Our fraction friends deserve equal treatment. 1 Share this video: 2 Tweet. <P> Fractions and decimals represent the same things: numbers that are not whole numbers. This page will show you how to convert from a fraction, into a decimal. <P> This online fraction and decimal calculator will help you understand how to add, subtract, multiply or divide fractions and decimals. The fraction calculator will compute the sums, differences, products or quotients of <P> Best Answer: To add a fraction to a decimal easily, you will have to convert them both into the same form. For example if you wanted to calculate 1/2 + 1.5, you could say 1.5=3/2, so 1/2+3/2 = 4/2 = 2. Or you could say that 1/2 = 0.5, and 0.5 + 1.5 = 2. I hope that answered your question! <P> Never fear. It's so easy that it will only take up a fraction of your time: just use multiplication to make the denominators the same. Oh, and make sure to do whatever you did to the denominator to the numerator, too. Our fraction friends deserve equal treatment. 1 Share this video: 2 Tweet. 3 Facebook. <P> Dividing Fractions and Decimals-To divide fractions with decimals, convert one or the other to a fraction or decimal, first change the division sign to multiplication sign and flip the number behind the sign if you're using fractions, and then multiply. You may convert the number to a mixed fraction if possible/needed.	To add a fraction to a decimal easily, you will have to convert them both into the same form.
where is tib fib	<P> 6 weeks ago I broke my tib/fib and got surgery that night to insert a rod in my entire tibia along with 3 screws and a plate and 8 screws in my fibula. They put a soft cast on it for a week and then removed it and gave me a boot. <P> I broke my tib-fib on my right leg. I had 2 plates and 21 screws internal fixation. I had 6 weeks of non weight bearing foot elevated the whole time. After week 6 I was started weight bearing in a walking boot and physical therapy, at 10 weeks put into a tennis shoe and continue physical therapy. <P> Fractures ofthese bones often result from a sport-related injury or motor vehicle ac-cident. Most fractures of the tibia and fibula (tib-fib fractures) healwithout complication, and the patient is able to resume his or hernormal activities. However, potentially serious complications can develop, and you mustbe aware of their early warning signs. <P> Her tib break was through the growth plate at her ankle and the fib break about an inch higher. No surgery, just a full leg plaster cast for about 4 weeks, at which tim it was cut down below her knee. at 6 weeks this was replaced w a fiberglass cast, then replaced again after a few weeks w a second fiberglass cast. <P> The lower tibia and fibula epiphyses form the lumps that we see and feel at the sides of our ankles and call ankle bones. The fancy name is malleolus (mah LEE o LUS). The medial malleolus is the inner ankle bone and the lateral malleolus is the outer ankle bone. Together they are the malleoli (mah LEE o LYE). <P> (redirected from tib-fib fracture). a fracture of the distal tibia and fibula in which the medial malleolus of the distal tibia and the lateral malleolus of the distal fibula are fractured. <P> Background. Lower leg fractures include fractures of the tibia and fibula. Of these two bones, the tibia is the only weightbearing bone. Fractures of the tibia generally are associated with fibula fracture, because the force is transmitted along the interosseous membrane to the fibula. The skin and subcutaneous tissue are very thin over the anterior and medial tibia and as a result of this, a significant number of fractures to the lower leg are open.	Sides of our ankles
proper height for a computer desk	<P> The proper computer desk height is an important facet of working at a computer. After all, if your desk is not at the right height, and your other accessories are also ill-adjusted, you may experience pain or discomfort in your wrists, arms, neck or back, caused by bad ergonomic practices. If the desk height is not adjustable, alter the height of your seat. Depending on your personal height and level of comfort, adjust the seat slightly higher or lower, but don't vary too much from the desk height/elbow ratio since you want to be ergonomically correct when sitting at a computer desk. <P> Our ergonomic assessment tool is a quick and easy solution for determining the ideal height for your sit-stand desk, ergonomic chair, keyboard tray and monitor arm. <P> If you're equipping an office with multiple employees of varied heights, one possible solution is purchasing desks with adjustable work surfaces. The best adjustable surfaces can be moved as low as 22 inches or raised as high as 33 inches, providing a comfortable level for each specific employee. If you can't afford to purchase a new desk, you may still employ a number of techniques to adjust the existing desk's height. <P> The chair and desk must work together as a cohesive unit. Choosing a chair with adjustable back support and adjustable seat height offers the most customization and comfort. When seated, your leg-to-torso angle should be between 90 and 110 degrees and the edge of the seat should not contact the back of your knees. Other considerations that determine a computer desk's correct height are the equipment you use, the tasks you perform and your physical height. The best adjustable surfaces can be moved as low as 22 inches or raised as high as 33 inches, providing a comfortable level for each specific employee. If you can't afford to purchase a new desk, you may still employ a number of techniques to adjust the existing desk's height. <P> Height. In general, a standard computer desk measures 28-to-30 inches high, which works best for people between 5'8 and 5'10 tall. Taller or shorter individuals may have difficulty working under those conditions. The best adjustable surfaces can be moved as low as 22 inches or raised as high as 33 inches, providing a comfortable level for each specific employee. If you can't afford to purchase a new desk, you may still employ a number of techniques to adjust the existing desk's height. <P> Desk Height. The height of your computer desk should be about 20 to 28 inches from the ground, depending on the model and brand. In other words, when sitting down, the height of the desk should reach your elbows. If the desk height is not adjustable, alter the height of your seat. Depending on your personal height and level of comfort, adjust the seat slightly higher or lower, but don't vary too much from the desk height/elbow ratio since you want to be ergonomically correct when sitting at a computer desk. <P> Some may choose a slanting desk, therefore if the elbows are resting at 44 inches, the upper most part will be 48 inches while the center of the desk will be 46 inches. The general rule of thumb is that your elbows should naturally be resting on the desk at a 90 degree angle without having to strain or slouch. The height of your desk should generally be at elbow height. This means: as your elbows are positioned at a 90 degree angle from the floor, measure the distance from the floor to the bottom of your elbow. The desk should be built to this height. For instance, the average standing desk height for those 5’11” is 44 inches tall, but remember this is a general average and you should consider your body’s proportions before settling on a height. Of course you can always grab an adjustable standing desk if you decide to	28-to-30 inches high, which works best for people between 5'8 and 5'10 tall
is fenugreek milk plus for breastfeeding good for diabetes mom	<P> See the Academy of Breastfeeding Medicine’s protocol #9 on the use of galactogogues. Mothers generally notice an increase in production 24-72 hours after starting the herb, but it can take two weeks for others to see a change. Some mothers do not see a change in milk production when taking fenugreek. 1 Objective: To assess the effect of fenugreek on breast milk production in exclusively breast-pumping women. 2 Methods: Ten women kept diaries of their breast milk production for two weeks. 3 The first week established baseline milk production. <P> The use of Fenugreek may cause a maple-syrup odor in a mother or baby’s sweat. It can have effects such as lowering blood sugar, and may cause allergy in some sensitive people with a history of asthma. Diabetic or asthmatic or allergic mothers should consult health care providers before using Fenugreek. Fenugreek is used in artificial maple flavorings, and also has a food product. If used to build milk supply, Fenugreek can generally be discontinued after milk supply is increased, as long as a mother can regularly breastfeed or pump. <P> […] supplements containing fenugreek that are commonly used to increase milk supply. She mentioned that using fenugreek while breastfeeding can potentially cause peanut allergies in babies when there is a history of food allergy in the family. I used fenugreek and it did make my urine and sweat smell like maple syrup, it also increased my breast milk supply. My baby though got reflux and constipation which may or may not be associated with the fenugreek. <P> Some believe it is possible because breasts are modified sweat glands, and fenugreek stimulates sweat production. It has been found that fenugreek can increase a nursing mother's milk supply within 24 to 72 hours after first taking the herb. Once an adequate level of milk production is reached, most women can discontinue the fenugreek and maintain the milk supply with adequate breast stimulation. Many women today take fenugreek in a pill form (ground seeds placed in capsules). <P> Effect on milk production. Fenugreek (Trigonella foenum-graecum L.) appears to be the herb that is most often used to increase milk supply. It has been reported to be an excellent galactagogue for some mothers, and has been used as such for centuries. 1 Objective: To assess the effect of fenugreek on breast milk production in exclusively breast-pumping women. 2 Methods: Ten women kept diaries of their breast milk production for two weeks. 3 The first week established baseline milk production. <P> Uses of Fenugreek. 1 One of the biggest fenugreek benefits, is that it is used to increase breastmilk supply. 2 Steeped fenugreek seeds can be used in a poultice for mastitis and engorgement. 3 To treat sinus problems naturally while breastfeeding. 4 To fight infections naturally and safely while breastfeeding. 1 Their urine may change color and smell of maple syrup. 2 Fenugreek and breast milk: Mom’s breast milk may start to smell like maple syrup. 3 Some people may be allergic to fenugreek, which could cause swelling tongue, throat, breathing problems and even hives. <P> Known side-effects of the use of fenugreek for breastfeeding... 1 People that use fenugreek herbs often smell like curry or maple syrup. 2 Their urine may change color and smell of maple syrup. 3 Fenugreek and breast milk: Mom’s breast milk may start to smell like maple syrup. 1 Their urine may change color and smell of maple syrup. 2 Fenugreek and breast milk: Mom’s breast milk may start to smell like maple syrup. 3 Some people may be allergic to fenugreek, which could cause swelling tongue, throat, breathing problems and even hives. <P> Yes. Women have used the spice fenugreek since ancient times in the Middle East, North Africa, and India to stimulate milk flow. Research has shown that fenugreek can increase milk production as much as 900 percent, although no one knows exactly how. The oil contained in fenugreek seeds is believed to play a role in boosting milk supply. Sore nipples. Find out what can cause sore nipples in breastfeeding moms and what you can do to ease the pain. Hyperlactation (overabundant milk supply). Find out what you can do when your breast milk comes out so fast and forcibly that it's hard for your baby to nurse. <P> 1 Background: Fenugreek is a popular herb used in the lay population as a galactogogue though scientific research regarding efficacy has not been published. 2 Objective: To assess the effect of fenugreek on breast milk production in exclusively breast-pumping women. 1 Objective: To assess the effect of fenugreek on breast milk production in exclusively breast-pumping women. 2 Methods: Ten women kept diaries of their breast milk production for two weeks. 3 The first week established baseline milk production.	Diabetic or asthmatic or allergic mothers should consult health care providers before using Fenugreek.
what tissues are lungs made of	<P> 1 Make connections between the lung DVD and structure of lungs. 2 Tissue – a group of similar cells specialised to carry out the same function. 3 Organ – a structure made up of different kinds of tissue. 4 E.g. <P> A connective tissue disease is any disease that affects the parts of the body that connect the structures of the body together. Connective tissues are made up of two proteins: collagen and elastin. Collagen is a protein found in the tendons, ligaments, skin, cornea, cartilage, bone, and blood vessels. Elastin is a stretchy protein that resembles a rubber band and is the major component of ligaments and skin. <P> The lungs tissues are made up mainly of squamous epithelial tissue (called alveolar epithelium in the lungs). This type of tissue serves a critical function within the lungs b … ecause it allows the transfer and exchange of gases with little or no resistance. You can find simple squamous epithelial tissue in alveoli in lungs. The reason of it, is that simple squamous cells are very thin and they pass the gases through very easily. … As you know the alveoli's' role is to exchange oxygen and carbon dioxide, thin walls help to do it quicker. 3 people found this useful. <P> You can find simple squamous epithelial tissue in alveoli in lungs. The reason of it, is that simple squamous cells are very thin and they pass the gases through very easily. As you know the alveoli's' role is to exchange oxygen and carbon dioxide, thin walls help to do it quicker. <P> The lungs are composed of various specialized cells and tissues -- not just simple tubes or pipes. Lining them are epithelial cells with specialized hairs, or cilia, which help trap particles and prevent infection from reaching the lungs. Beneath these cells is the basement membrane that forms a firm foundation for the epithelial cells, and under that is looser tissue full of mucous glands and other specialized cells such as eosinophils, mast cells, lymphocytes, and white blood cells called polys. Under this layer is smooth muscle. <P> The muscles of our lungs, stomach, and intestines are made of smooth muscle tissue. Cardiac muscle tissue is the third type of muscle tissue. Cardiac muscle tissue makes our hearts. Organs are groups of tissues that work together to do a job. Our skin is made of hair tissue, oil and sweat gland tissues, nerve tissue, blood tissue, and many other tissues to make the organ called skin. Our eyes are made of nerve tissue, blood vessel tissue, muscle tissue, lens tissue, pupil tissue, and many more types of tissue to make the organ called eyes. <P> Inside the Torso. The body's functions are conducted by organs. Each organ is a recognizable structure (for example, the heart, lungs, liver, eyes, and stomach) that performs specific functions. An organ is made of several types of tissue and therefore several types of cells (see Cells). For example, the heart (see Heart) contains muscle tissue that contracts to pump blood, fibrous tissue that makes up the heart valves, and special cells that maintain the rate and rhythm of heartbeats. Connective tissue is the tough, often fibrous tissue that binds the body's structures together and provides support and elasticity. It is present in almost every organ, forming a large part of skin, tendons, joints, ligaments, blood vessels, and muscles. <P> Our lungs fuel us with oxygen, the body's life-sustaining gas. They breathe in air, then extract the oxygen and pass it into the bloodstream, where it's rushed off to the tissues and organs that require it to function. Oxygen drives the process of respiration, which provides our cells with energy. Our two lungs are made up of a complex latticework of tubes, which are suspended, on either side of the heart, inside the chest cavity on a framework of elastic fibers. Air is drawn in via the mouth and the nose, the latter acting as an air filter by trapping dust particles on its hairs. <P> The essential tissue of the lung lung parenchyma is made up of clusters of spongy air sacs called lobules. There are about 130,000 primary lobules in each lung. Each lobule is approximately 3.5 millimeters in diameter and contains about 2,200 alveoli (air sacs and ducts). The lungs are the body's major organs of respiration. The two vital parts that make up the lungs are located on each side of the chest within the rib cage. They are separated by the heart and other contents of the mediastinumthe tissues and organs of the middle chest (e.g., the heart and large vessels, windpipe).	Simple squamous epithelial tissue in alveoli in lungs.
how long should a roof last	<P> Homeowners can expect wood roofs to last 25 years, on average. While slate has a very long lifespan, it's also very expensive, costing approximately $800 per square -- an area equaling 10 feet by 10 feet -- at the time of publication. Deciding Factors. While slate has a very long lifespan, it's also very expensive, costing approximately $800 per square -- an area equaling 10 feet by 10 feet -- at the time of publication. Asphalt singles are relatively inexpensive, but their life expectancy is much shorter. <P> Average Life Expectancies. Slate roofs can last 100 years or more, and clay roof tiles, on average, endure 100 years. Cooper and other metal roofs have life expectancies of at least 50 years. Deciding Factors. While slate has a very long lifespan, it's also very expensive, costing approximately $800 per square -- an area equaling 10 feet by 10 feet -- at the time of publication. Asphalt singles are relatively inexpensive, but their life expectancy is much shorter. <P> You will rarely get the full life out of a shingle. A 20 yr shingle will last an average of 15 yrs sometimes less. A lot depends on the installation, shingle over reroofs dont last as long. Or if underlayment/felt paper was not used that takes years off the life of a shingle. In your case hopefully they used a 30 yr shingle which should last 25 yrs. I know most states I work in now use a 25 or 30 year shingle on new work. If you have architectural shingles they are probably a 30 year if its a standard 3 tab probably a 20 year shingle. <P> So how long should a roof last? We have seen poorly designed and installed roofs go as few as seven to ten years before they failed, and we have seen old asphalt roofs that were over 30 years old. Most building owners, roofing contractors and designers feel 25 years is an acceptable service life for today’s products. <P> Although roofing materials have average life expectancies, the life expectancy of any one roof depends on factors such as local weather conditions and the roof's design and construction, as well as its material. Deciding Factors. While slate has a very long lifespan, it's also very expensive, costing approximately $800 per square -- an area equaling 10 feet by 10 feet -- at the time of publication. Asphalt singles are relatively inexpensive, but their life expectancy is much shorter. <P> When you re-shingle your house, you hope you will be problem free for anywhere from 15 to 30 years. The life expectancy of shingles, however, depends on such factors as the quality of shingle you choose, the climate in which you live, the workmanship used by the roofing contractor and how well you maintain your roof. <P> So how long should a roof last? We have seen poorly designed and installed roofs go as few as six or seven years before they failed, and we have seen old coal tar built up roofs that were 60 years old. Most building owners, roofing contractors and designers feel 20 years is an acceptable service life. <P> Roofs: Slate, copper and tile roofs can last more than 50 years. Homeowners with wood shake roofs should expect them to last about 30 years, while fiber cement shingles last about 25 years and asphalt shingle/composition roofs last about 20 years, the NAHB found. Climate and weather conditions, such as snow, hail and hurricanes, can cut the life span of all types of roof <P> Extremes of climate, especially high winds, can reduce the longevity of your roof, but if you have a quality roof installed in the first place, you will be able to see the maximum amount of life from it. The most common roofing materials will last for 20 years after installation. These include composite roofs and torchdown roofs. If you opt for wood shingles, you could see a 30- to 40-year lifespan for your roof. Your actual longevity depends on the climate, your roof’s design, and the climate. Knowing how long your roof will last will help you determine the average amount of money per year your roof costs you. <P> How long does a roof last is dependent on the material that the roof is made up of. Different materials have different time span. Some can last for 10 years, some 40 and some even for 100 years. A roof can be made of clay, wood metal or asphalt. A well built roof is very important in order to shelter oneself from the outside weather conditions.	Slate, copper and tile roofs can last more than 50 years, wood shake roofs should expect them to last about 30 years, while fiber cement shingles last about 25 years and asphalt shingle/composition roofs last about 20 years.
collagen definition anatomy	<P> Types of Collagen. There are many different types of collagen found throughout the body. Some of the most common are Type I and Type II. Type I collagen is the most abundant and is found in scar tissue, skin, tendons, artery walls, and bones. It is a very strong type of collagen, with good tensile strength. More specifically, collagen is found in our various types of connective tissue such as cartilage, tendons, bones, and ligaments. If we could look closely at a collagen fiber, we'd see that its structure is similar to that of a rope. <P> Elastin: A protein that coil and recoils like a spring within the elastic fibers of connective tissue and accounts for the elasticity of structures such the skin, blood vessels, heart, lungs, intestines, tendons, and ligaments. Elastin functions in connective tissue together with collagen. Whereas elastin provides elasticity, collagen provides rigidity to connective tissue. Elastin is normally no longer made after puberty and aging begins. Also called elasticin. <P> collagen. a fibrous structural protein that constitutes the protein of the white fibers (collagenous fibers) of skin, tendon, bone cartilage and all other connective tissues. It also occurs dispersed in a gel to provide stiffening, as in the vitreous humor of the eye. It is made of monomers of tropocollagen. Examples of collagen diseases that are most probably the result of an aberration of the immunological reactions that mitigate injury and inflammation of connective tissues are systemic lupus erythematosus, rheumatoid arthritis, polymyositis and dermatomyositis. <P> It is found in connective tissue, including skin, bone, ligaments, and cartilage. It represents 30% of total body protein. collagenous, adj. A fibrous protein that provides strength and elasticity to skin, bones, cartilage and connective tissues. Examples of collagen diseases that are most probably the result of an aberration of the immunological reactions that mitigate injury and inflammation of connective tissues are systemic lupus erythematosus, rheumatoid arthritis, polymyositis and dermatomyositis. <P> In other types of connective tissue, collagen may be arranged in a more irregular manner. In our skin, there are collagen fibers, but they're not arranged in the same way as in tendons. You can feel the difference by touching your Achilles tendon and then pulling at your arm skin. Skin is softer and much looser. More specifically, collagen is found in our various types of connective tissue such as cartilage, tendons, bones, and ligaments. If we could look closely at a collagen fiber, we'd see that its structure is similar to that of a rope. <P> Collagen, in the form of elongated fibrils, is mostly found in fibrous tissues such as tendons, ligaments and skin. It is also abundant in corneas, cartilage, bones, blood vessels, the gut, intervertebral discs and the dentin in teeth. In muscle tissue, it serves as a major component of the endomysium. Collagen /ˈkɒlədʒɨn/ is the main structural protein in the extracellular space in the various connective tissues in animals. As the main component of connective tissue, it is the most abundant protein in mammals, making up from 25% to 35% of the whole-body protein content <P> collagen. a fibrous structural protein that constitutes the protein of the white fibers (collagenous fibers) of skin, tendon, bone cartilage and all other connective tissues. It also occurs dispersed in a gel to provide stiffening, as in the vitreous humor of the eye. Examples of collagen diseases that are most probably the result of an aberration of the immunological reactions that mitigate injury and inflammation of connective tissues are systemic lupus erythematosus, rheumatoid arthritis, polymyositis and dermatomyositis. <P> Collagen: The principal protein of the skin, tendons, cartilage, bone, and connective tissue. Collagen is an essential part of the framework of the design of our various body tissues.	It is an essential part of the framework of the design of our various body tissues.
how long does it take to get a master degree in teaching in college	<P> In the instance of dual degree programs, the length of time to receive a master's degree depends on the additional degree program, and may take as few as four years or as many as ten. Part-Time: 2-5 Years. Students enrolled in a master's degree program often hold full-time jobs. Since many schools offer a part-time option as well as distance learning, working students or students with families may prefer part-time evening or weekend programs. <P> Typical master's degree programs require students to take from nine to 11 classes and complete a final project. Most full-time MAT and MIT programs take around 12 months to complete, while students in part-time programs usually take anywhere from 20 months to five years to complete their coursework. Schools typically designate maximum time periods that part-time students have to complete the program. <P> Rating Newest Oldest. Best Answer: Associates = 2 years Bachelors = 4 years or associates + 2 years Masters = bachelors + 2 years PhD = bachelors + masters + 2-6 years 1) You can go straight to a bachelors degree without an associates, but you need a bachelors to apply for a masters degree. Or can I just go... show more How long does it take to achieve the following college degrees? Associate's Degree Bachelor's Degree Master's Degree Also a couple more questions: 1) If I want to get a Master's degree, would I first have to get an Associate's Degree, then a Bachelor's Degree, THEN my Master's Degree? <P> Associate's degree- 2 years bachelor's- 3-5 years. Traditionally 4. Masters-Bachelors + another 2-3 years You don't need an associates degree for anything, its just a losers degree. You do need a bachelors before a masters. Or can I just go... show more How long does it take to achieve the following college degrees? Associate's Degree Bachelor's Degree Master's Degree Also a couple more questions: 1) If I want to get a Master's degree, would I first have to get an Associate's Degree, then a Bachelor's Degree, THEN my Master's Degree? <P> Most teachers working in the elementary, middle school or high school levels hold at least a bachelor's degree, though some have either a Master of Arts in Teaching (MAT) or a Masters in Teaching (MIT). Most full-time MAT and MIT programs take around 12 months to complete, while students in part-time programs usually take anywhere from 20 months to five years to complete their coursework. Schools typically designate maximum time periods that part-time students have to complete the program. <P> Answers. Best Answer: Typically, a Masters is 36 credit hours (12 college classes) beyond your bachelors (degree.) So, if you started now, you'd have your bachelors in 4 years. Then assuming 5 classes a year (2 each term, and one during the summer) you'd have your Masters at the end of another 2 1/2 years. Four things to remember: (1) There are many factors that dictate how quickly you can get your Masters, including time, money (tuition) and family commitments. <P> Save. Jay Paul/Getty Images News/Getty Images. A master's degree takes anywhere from one to three years to complete, depending on the type of degree and the amount of time you can devote to your studies. It's a sizable investment of time and money, but in many professional fields, it's the degree that can open doors. Traditional Master's Degree Programs. A traditional master's degree program takes one or two years to complete. You'll be required to take anywhere from 30 to 60 credit hours of coursework, write an original thesis based on research in your field and pass final or certification exams.	One to three years.
what is romansh language	<P> Romansh (rumantsch). Romansh is a Romance language spoken by 50-70,000 people in the Swiss canton of Grisons (Graubuenden). graubünden <P> A collection of useful phrases in Romansh, a Romance language spoken in the Swiss canton of Grisons. <P> Romanian phrasebook. Romanian is a Romance language spoken mainly in Romania and Moldova, as well as in some parts of Hungary, Serbia, Bulgaria and Ukraine. It is useful to know the language if travelling in Romania, especially in rural areas. Romanian may or may not be difficult for speakers of other languages. <P> Outside of the traditional Romansh language area, Romansh is spoken by the so-called Romansh diaspora, meaning people who have moved out of the Romansh-speaking valleys. A significant number is found in the capital of Grisons, Chur, as well as in Swiss cities outside of Grisons. <P> Romansh (rumantsch). Romansh is a Romance language spoken by 50-70,000 people in the Swiss canton of Grisons (Graubuenden). Graubünden it is one of the four national languages Of switzerland and has-semi official. status <P> The Romance language most widely spoken natively today is Spanish (Castilian), followed by Portuguese, French, Italian, Romanian and Catalan, which together cover a vast territory in Europe and beyond, and work as official and national languages in dozens of countries. <P> Romansh has also been recognized as a national language of Switzerland since 1938 and as an official language along with German, French and Italian since 1996. It is sometimes grouped with Ladin and Friulian as a Rhaeto-Romance language, though this is disputed. <P> It is one of the four national languages of Switzerland and has semi-official status. Romansh, which is also known as Rumantsch, Romansch or Romanche or Rhaeto-Romansch, is not in fact a single language but rather a cluster of closely-related dialects.	Recognized as a national language of Switzerland.
what does a blue whales tongue weigh	<P> A blue whale's tongue weighs around 2.7 tonnes (3.0 short tons) and, when fully expanded, its mouth is large enough to hold up to 90 tonnes (99 short tons) of food and water. Despite the size of its mouth, the dimensions of its throat are such that a blue whale cannot swallow an object wider than a beach ball. <P> Best Answer: A blue whale's tongue can weigh up to 6,000 pounds. An adult African bull elephant weighs about twice that, but adult females are about 6,000 pounds. So... yeah. A blue whale's tongue is huge, about the size of a female African elephant. <P> Tweet. Blue whales are the largest creatures on Earth weighing up to 200 tons (181 metric tons), and a blue whale’s tongue weighs over two tons (2000 kg) or approximately the same weight as an elephant. <P> Size relative to a bus: Blue whales are the largest animals ever known to have lived on Earth. These magnificent marine mammals rule the oceans at up to 100 feet (30 meters) long and upwards of 200 tons (181 metric tons). Their tongues alone can weigh as much as an elephant. Their hearts, as much as an automobile. <P> Report Abuse. Blue Whales-the largest mammal on earth A blue whale's tongue is so large that fifty people could stand on it. A blue whale's tongue weighs more than an elephant. Average fully grown blue whales are around 100-120 tonnes and particularly large individuals have been estimated at 200 tonnes. An average blue is about the equivalent of about 25 fully grown African bull elephants. <P> Blue Whales-the largest mammal on earth A blue whale's tongue is so large that fifty people could stand on it. A blue whale's tongue weighs more than an elephant. Average fully grown blue whales are around 100-120 tonnes and particularly large individuals have been estimated at 200 tonnes. An average blue is about the equivalent of about 25 fully grown African bull elephants. <P> Quick Answer. The blue whale is the largest mammal in the world, and its massive tongue can weigh as much as an elephant, or 15,000 pounds, according to National Geographic. The tongue is an important muscle used in the whale's unique feeding routine.	Average 100-120 tonnes
where are precambrian rocks found	<P> Implications and discussion. The numerous fossils and abundant organic matter found in these Precambrian rocks is clear testimony to the creationist geologist that these sediments were laid down during the Flood year along with most of the so–called Cambrian–Recent strata. Whitcomb and Morris suggested that the main criterion for recognition of Precambrian rocks is that they be non–fossil–bearing. This criterion can no longer be maintained as there is now abundant evidence that rocks which evolutionist geologists classify as Precambrian do in fact contain a variety of fossils. <P> The Precambrian or Pre-Cambrian; sometimes abbreviated pЄ is the largest span of time in Earth's history before the current Phanerozoic Eon, and is a Supereon divided into several eons of the geologic time scale. The Precambrian Supereon is divided into three eons: the Hadean (4500-3950 Ma), Archean (4000-2500 Ma) and Proterozoic (2500-541.0 ± 1.0 Ma). See Timetable of the Precambrian. 1 Proterozoic: this eon refers to the time from the lower Cambrian boundary, 541.0 ± 1.0 Ma, back through 2500 Ma. <P> The Precambrian is so named because it precedes the Cambrian, the first period of the Phanerozoic Eon, which is named after Cambria, the classical name for Wales, where rocks from this age were first studied. The Precambrian Supereon is divided into three eons: the Hadean (4500-3950 Ma), Archean (4000-2500 Ma) and Proterozoic (2500-541.0 ± 1.0 Ma). See Timetable of the Precambrian. 1 Proterozoic: this eon refers to the time from the lower Cambrian boundary, 541.0 ± 1.0 Ma, back through 2500 Ma. <P> Approximately 2,300 wells are known to have penetrated the Precambrian basement rock complex, which is shallowest at about 600 feet, over the Nemaha ridge in northeastern Kansas, and deepest at about 9,500 feet in the Hugoton Embayment. The shallowest known Precambrian rocks encountered by test wells occur in northeastern Kansas, in Nemaha County, where the surface of the Precambrian rises to 588 feet above sea level; the deepest occurrence is in the southwest, in Barber County, at 4,595 feet below sea level. <P> In the last few decades, however, geologists have found that there are some hard-to-discern fossils in some Precambrian rocks, so this period also is now known as the Cryptozoic or obscure life. Eon (from the words crypt = hidden, and zoon = life). This eon covers almost 90% of the entire history of Earth. <P> The Precambrian basement complex consists mainly of igneous and metamorphic rocks (Merriam, Cole, and Hambleton, 1961). The most often reported igneous rock is granite; the most often reported metamorphics are quartzite and schist. The shallowest known Precambrian rocks encountered by test wells occur in northeastern Kansas, in Nemaha County, where the surface of the Precambrian rises to 588 feet above sea level; the deepest occurrence is in the southwest, in Barber County, at 4,595 feet below sea level. <P> The main reason more fossils are not found in the so–called Precambrian rocks is that many of these rocks have been altered, particularly by burial and tectonic pressure, and temperature (that is, they have been metamorphosed), and so the contained fossils have been destroyed. Whitcomb and Morris suggested that the main criterion for recognition of Precambrian rocks is that they be non–fossil–bearing. This criterion can no longer be maintained as there is now abundant evidence that rocks which evolutionist geologists classify as Precambrian do in fact contain a variety of fossils. <P> Precambrian. Precambrian, name of a major division of geologic time (see Geologic Timescale, table), from c.5 billion to 570 million years ago. It is now usually divided into the Archean and Proterozoic eons. Precambrian time includes 80% of the earth's history. Precambrian rocks are mostly covered by rock systems of more recent origin, but where visible they commonly display evidence of having been altered by intense metamorphism. <P> For example, algae fossils (stromatolites) are very widespread in rocks dated as Precambrian. Microscopic fossils and traces of fossils are found throughout Australian Precambrian rocks, and new finds of fossil soft–bodied animals are regularly being made. In the USA, Canada, Mexico, China, Russia, Africa and India the story is the same. Whitcomb and Morris suggested that the main criterion for recognition of Precambrian rocks is that they be non–fossil–bearing. This criterion can no longer be maintained as there is now abundant evidence that rocks which evolutionist geologists classify as Precambrian do in fact contain a variety of fossils. <P> These complexly deformed volcanic, intrusive igneous, and metamorphic rocks occur at the surface in the Llano Uplift of Central Texas and in more isolated outcrops in the mountainous Trans-Pecos region. Other Precambrian rocks are found in the subsurface in Trans-Pecos Texas, Central and West Texas, and the Panhandle. Knowledge of Precambrian rocks and their deformation in the state is much less complete than that of the state's younger rocks, partly because of the relative scarcity of exposure.	In Hadean, Archean, Proterozoic .
what is synovitis in ankle	<P> Anatomy of the Ankle. The ankle joint is surrounded by a synovial membrane that cushions and protects the bone ends that articulate the ankle joint. This membrane provides cushion and lubrication for the joint. <P> Synovitis. Synovitis is an inflammation of the joint lining, called synovium. The symptoms are often of short duration and may change location although when caused by overuse tend to remain in one joint. The pain is usually more severe than expected based on the appearance of the joint on examination. <P> JACKSONVILLE ANKLE SYNOVECTOMY SURGERY. Ankle synovitis is a condition characterized by inflammation of the soft tissue lining the ankle joint capsule (synovium). Most patients respond well to conservative treatments such as ice, rest, crutches, taping, or the use of special ankle braces. <P> Ankle Synovitis. (Also known as Post-Traumatic Ankle Synovitis). Ankle synovitis is a condition characterized by inflammation of the soft tissue lining the ankle joint capsule, known as the synovium, with subsequent ankle swelling, pain and stiffness. <P> synovitis. [sin′əvī′tis]. an inflammatory condition of the synovial membrane of a joint as the result of an aseptic wound or a traumatic injury, such as a sprain or severe strain. The knee is most commonly affected. <P> Pigmented villonodular synovitis of the foot and ankle. Brien EW, Sacoman DM, Mirra JM. BACKGROUND: Pigmented villonodular synovitis (PVNS) is a rare disease of uncertain etiology usually affecting the synovium of weightbearing joints. <P> The Elevate™ Drop Foot Brace is unique in its versatility, comfort, and ease of use. It can be worn with the majority of shoe styles on the market – both male and female, including sandals. Pamper Your Feet Foot Spa products for better feeling feet, relaxation, and treatment. <P> tenosynovitis. inflammation of a tendon and its sheath, the lubricated layer of tissue in which the tendon is housed and through which it moves. It is painful, and may temporarily disable the affected part. Arthritis frequently involves tendon sheaths. <P> share. The synovial membrane is the part of the body that lines the inside of certain joints. It lines the joint capsule in the knee, ankle, wrist, elbow, hand, foot, and shoulder. When this membrane gets inflamed, it is called synovitis. <P> MTP Synovitis (Capsulitis). The pain commonly associated with MTP Synovitis is typically described as a sharp or aching pain located directly in the ball of the foot, centered at the bottom of the second toe.	Ankle synovitis is a condition characterized by inflammation of the soft tissue lining the ankle joint capsule, known as the synovium, with subsequent ankle swelling, pain and stiffness.
how long to cook chuck roast	<P> Time to put it in the oven. Put the lid on, then roast in a 275-degree oven for 3 hours, for a 3 pound roast. For a 4 to 5 pound roast, plan on 4 hours. And don’t peek and fiddle and frig with it, either. Just find a hobby that will occupy your thoughts and actions for the time it takes for your roast to cook. Place the meat in the pan and sear it for about a minute on all sides until it is nice and brown all over. Remove the roast to a plate. With the burner still on high, use either red wine or beef broth (about 1 cup) to deglaze the pan, scraping the bottom with a whisk to get all of that wonderful flavor up. <P> 1 Return to Dutch oven. 2 In a small bowl, stir 1/2 cup water into flour. 3 Stir into pan juices. 4 Cook, stirring, on medium heat until thickened, then 1 minute more. 5 Season to taste. 6 Serve with pot roast. 7 For oven cooking: After browning meat and adding liquid mixture to pan, bake, covered, for 1 hour at 325 degrees. 1 Brown meat on all sides in hot oil in a 4- to 6-quart Dutch oven. 2 Drain fat. 3 Mix 3/4 cup water, Worcestershire sauce, bouillon, basil and salt and pepper to taste. 4 Pour over roast. <P> Generously salt and pepper your chuck roast. Heat a large pot or Dutch oven over medium-high heat. Then add 2 to 3 tablespoons of olive oil (or you can do a butter/olive oil split). Cut two onions in half and cut 6 to 8 carrots into 2-inch slices (you can peel them, but you don’t have to). Place the meat in the pan and sear it for about a minute on all sides until it is nice and brown all over. Remove the roast to a plate. With the burner still on high, use either red wine or beef broth (about 1 cup) to deglaze the pan, scraping the bottom with a whisk to get all of that wonderful flavor up. <P> 1 Sear the roast on both sides for 5-6 minutes each, until well browned. 2 Remove from the skillet and set aside. 3 Reduce the heat to medium and stir in mushrooms and butter; cook for 3-4 minutes. 4 Stir in onion; cook for 5 minutes, until onions are translucent and begin to brown. 1 Reduce the heat to medium and stir in mushrooms and butter; cook for 3-4 minutes. 2 Stir in onion; cook for 5 minutes, until onions are translucent and begin to brown. 3 Add garlic, stir for about a minute. 4 Stir in 1 1/2 tablespoons flour; cook and stir for about 1 minute. 5 Add tomato paste, and cook for another minute. <P> 1. Rub roasts evenly with 1 tsp. salt and 1 tsp. pepper. 2. Brown roasts on all sides in hot oil in a Dutch oven over medium-high heat (about 10 minutes). Place roasts, side by side, in a 6-qt. slow cooker. Add carrots and remaining ingredients. 3. Cook, covered, on LOW 10 to 12 hours or until tender. Remove roast and vegetables, and shred meat. Pour gravy mixture from slow cooker into a 4-cup measuring cup or fat strainer, and let stand 15 minutes. Spoon or pour fat out of gravy mixture in cup or fat strainer, and discard. <P> 1 Trim fat from meat. 2 Brown meat on all sides in hot oil in a 4- to 6-quart Dutch oven. 3 Drain fat. 4 Mix 3/4 cup water, Worcestershire sauce, bouillon, basil and salt and pepper to taste. 5 Pour over roast. 6 Bring to boil. 7 Reduce heat and simmer, covered, 1 hour. 1 Brown meat on all sides in hot oil in a 4- to 6-quart Dutch oven. 2 Drain fat. 3 Mix 3/4 cup water, Worcestershire sauce, bouillon, basil and salt and pepper to taste. 4 <P> 5. Cook the roast for 3 to 4 hours or until the meat is fork tender. Use a meat thermometer to determine the roast is done cooking. The internal temperature should reach at least 145 degrees Fahrenheit (63 degrees Celsius). It's an inexpensive cut, with a rich, delicious flavor that makes it a classic main dish for a big home-cooked meal. For tender, pull-apart meat, it should be slow cooked to allow time for the meat to soften and become juicy. Read on to learn how to make a chuck roast. 1 Prep time: 30-45 minutes. 2 Cook time: 3-4 hours. 3 Total time: 4-5 hours <P> Place the roast back into the pot and add enough beef stock to cover the meat halfway. Add in the onions and the carrots, along with the fresh herbs. Put the lid on, then roast for 3 hours for a 3-pound roast. For a 4 to 5-pound roast, plan on 4 hours. The roast is ready when it's fall-apart tender. Directions. Preheat the oven to 275 degrees F. Generously salt and pepper the chuck roast. Heat the olive oil in large pot or Dutch oven over medium-high heat. Add the halved onions to the pot, browning them on both sides.	3 to 4 hours
first pass yield definition	<P> First pass yield (FPY) , also known as throughput yield (TPY) , is defined as the number of units coming out of a process divided by the number of units going into that process over a specified period of time. <P> First pass yield is obtained by counting the number of good parts that make it through the process right the first time divided by the total number of parts that enter the process. Say that a product goes through a five-step process. Let’s further assume that each unit has 20 opportunities for a defect. <P> As you can see, the more process steps you have, the more challenging it will be to get an item through the system without any issues. For example, consider an operation that has 4 processes, each with a yield of 95%. Using the first pass yield equation above, the FYP is: .95 x .95 x .95 x .95 = .81. <P> Also related, first time yield (FTY) is simply the number of good units produced divided by the number of total units going into the process. First time yield considers only what went into a process step and what went out, while FPY adds the consideration of rework. <P> First Pass Yield is an important manufacturing metric for measuring quality and production performance and there are many benefits to including first pass yield in the manufacturing executive's dashboard. <P> FIRST PASS YIELD The FPY is defined as the number of products coming out of a process divided by the number of products going into that process over a specified phase of time. Only good units with no rework are counted as coming out of an individual process. FPY, also known as Throughput Yield (TPY). <P> Definition. A metric for determining the performance of a production or manufacturing process. The first time yield can be calculated by dividing the number of goods from a manufactured lot that meet pre-specified quality standards by the total number produced by the process. Also called first-pass yield.	Number of units coming out of a process divided by the number of units going into that process over a specified period of time
what is nitrobenzene soluble in	<P> Nitrobenzene is produced commercially by the exothermic nitration of benzene with fuming nitric acid in the presence of a sulfuric acid catalyst. The crude nitrobenzene is passed through washer-separators to remove residual acid and is then distilled to remove benzene, water, dinitrobenzene and trinitrobenzene. <P> Nitrobenzene Products. Nitrobenzene (NB; oil of mirbane) is a pale yellow liquid with an odor resembling that of bitter almonds. It was first synthesized in 1834 by treating benzene with fuming nitric acid and has commercial importance as the major precursor to aniline. <P> NO. , very poisonous, flammable, pale yellow, liquid aromatic compound with an odor like that of bitter almonds. It is sometimes called oil of mirbane or nitrobenzol. Nitrobenzene melts at 5.85°C, boils at 210.9°C, is only slightly soluble in water, but is very soluble in ethanol, ether, and benzene. <P> Description. Nitrobenzene is a greenish-yellow crystalline solid or colorless to pale yellow, oily liquid with an almond oil odor. Nitrobenzene is soluble in about 500 parts water and freely soluble in alcohol, benzene, ether, acetone, and oils. It is also combustible with steam (Merck, 1989). <P> Nitrobenzene is manufactured commercially by the direct nitration of benzene usingwhat is known as 'mixed acid' or 'nitrating acid' (27-32% HNO 56-60% H2S04, 8- 17% H20). HistoricalIy, it was produced by a batch process. With a typical batch process, the reactor was charged with benzene at a temperature of 50-55 0e. <P> C 6 H 5 NO 2, very poisonous, flammable, pale yellow, liquid aromatic compound with an odor like that of bitter almonds. It is sometimes called oil of mirbane or nitrobenzol. Nitrobenzene melts at 5.85&degC;, boils at 210.9&degC;, is only slightly soluble in water, but is very soluble in ethanol, ether, and benzene. <P> Nitrobenzene is a greenish-yellow crystalline solid or colorless to pale yellow, oily liquid with an almond oil odor. Nitrobenzene is soluble in about 500 parts water and freely soluble in alcohol, benzene, ether, acetone, and oils. It is also combustible with steam (Merck, 1989).	Nitrobenzene is soluble in about 500 parts water and freely soluble in alcohol, benzene, ether, acetone, and oils.
wild turkey species ranges	<P> Each of the turkey subspecies are endemic to a certain region and may have color and size variations, but all are wild turkeys. If you are planning a turkey management initiative on your property, make sure you know which turkey sub-species lives in your area. The sub-species of wild turkey found are: Rio Grande turkeys were also introduced to Hawaii in the late 1950s. Population estimates for this subspecies range from 1,022,700 to 1,025,700. This sub-species is native to the central plain states. They were first described in 1879 and have longer legs when compared to their body size. <P> Supplied by: NWTF. This 38” by 26” poster includes colorful images and information about each of the 5 wild turkey sub-species as well as the Ocellated turkey while also illustrating the range each inhabits. <P> (Meleagris gallopavo mexicana) The fifth recognized, but least known, wild turkey subspecies is the Gould's found in portions of Arizona and New Mexico, as well as northern Mexico. It was first described by J. Gould in 1856 during his travels in Mexico. Like the Merriam's, the Gould's is a bird of the mountains. Merriam’s Wild Turkey. (Meleagris gallopavo merriami) This subspecies of turkey is primarily located in the pines of the western mountain regions of the U.S. It was named by Dr. E.W. Nelson in 1900 in honor of C. Hart Merriam, the first chief of the U.S. Biological Survey. <P> Eastern Wild Turkey. (Meleagris gallopavo silvestris)This subspecies of wild turkey is the most numerous and hunted species and is also the most widely distributed of all the subspecies in North America. It nearly inhabits the entire eastern half of the country. The Eastern turkey is best found in hardwood and thick forests. Merriam’s Wild Turkey. (Meleagris gallopavo merriami) This subspecies of turkey is primarily located in the pines of the western mountain regions of the U.S. It was named by Dr. E.W. Nelson in 1900 in honor of C. Hart Merriam, the first chief of the U.S. Biological Survey. <P> The turkey is a large bird in the genus Meleagris, which is native to the Americas. One species, Meleagris gallopavo (commonly known as the wild turkey or domestic turkey), is native to the forests of North America, mainly Mexico and the United States. The other living species is Meleagris ocellata or the ocellated turkey, native to the forests of the Yucatan Yucatán. peninsula <P> Management. Range & Current Status. Today the range of the wild turkey is larger than in pre-colonial days, and populations (6 million total) exist in every state except Alaska. Five races or subspecies of the wild turkey (Meleagris gallopavo) exist in the United States. <P> The range of this species covers the entire eastern half of the United States, extending into South Eastern Manitoba, Ontario, Quebec, and the Maritime Provinces in Canada. Eastern turkey populations number from 5.1 to 5.3 million birds, the most numerous of any turkey subspecies. Rio Grande turkeys were also introduced to Hawaii in the late 1950s. Population estimates for this subspecies range from 1,022,700 to 1,025,700. This sub-species is native to the central plain states. They were first described in 1879 and have longer legs when compared to their body size. <P> (Information for this species page was gathered by Ms. Sherri Fawcett as part of an assignment in Biology 220W, Spring 2004). The eastern wild turkey (Meteagris gallopava silvestris) is the most abundant and most widely occurring sub-species of the five types of wild turkeys. Its natural range includes almost all of the eastern United States. The wild turkey is the largest game bird in North America <P> The wild turkey (Meleagris gallopavo) is native to North America and is the heaviest member of the diverse Galliformes. It is the same species as the domestic turkey, which was originally derived from a southern Mexican subspecies of wild turkey (not the related ocellated turkey). Population estimates for this subspecies range from 1,022,700 to 1,025,700. This subspecies, native to the central plain states, was first described in 1879, and has relatively long legs, better adapted to a prairie habitat. Its body feathers often have a green-coppery sheen. <P> There are 2 species in the genus, the Wild Turkey of forested North America and the Ocellated Turkey (M. ocellata) of the Yucatan region of Central America (Eaton 1992). Hunting the Wild Turkey is a popular sport pursued by hunters nationwide..	Range from 1,022,700 to 1,025,700.
why is nicotine bad for you	<P> Best Answer: I have heard that it is not the nicotine that is bad for you, just the tar and hundreds of other things they put in cigs. I am a smoker and I have just stumbled upon the electronic cigarette. For those of you that do not know what that is allow me to explain. They are cigarettes that have a battery and no tobacco. You switch out the filter part and put new flavors in that are also mixed with nicotine. You are losing the carcinogens... <P> The confusion about nicotine comes from anti-smoking activists talking about nicotine and smoking as if they were the same. While it is true that people smoke mostly because of nicotine; nicotine users die mostly because of the smoke. It seems that some people get substantial benefits that keep them using nicotine, while others do not. Some advocates seem to think that addiction is a terrible disease in itself (despite them not even having a good definition for it). <P> In this case, it’s not the smoking that causes the changes to your blood sugar and blood pressure, it’s the nicotine itself. If you were to switch to using a nicotine patch or smokeless tobacco (also called chew or dip) instead, for example, you would still have the same harmful effects from the nicotine. Paranoia sells and it gets lots of readers. So you may have rightly started to distrust news stories that talk about the latest dangers to your health. After all, everything from air to gluten has been linked to serious health risks. You may now be wondering just how bad nicotine really is for <P> Studying nicotine is a bit harder, because most nicotine users smoke, and the smoking is quite bad for you. But there is some good evidence: If nicotine were very bad for you then smokeless tobacco, which provides nicotine, would be very bad for you. As we've shown elsewhere, that is not the case. It seems that some people get substantial benefits that keep them using nicotine, while others do not. Some advocates seem to think that addiction is a terrible disease in itself (despite them not even having a good definition for it). <P> Even so, the possibility that people can be addicted to nicotine, but not die from it, is at the heart of a growing debate in the scientific community. Scientists don't doubt nicotine is addictive, but some wonder if a daily dose could be as benign as the caffeine many of us get from a morning coffee. Also, tobacco companies used various chemicals to make the nicotine in cigarettes even more potent. Pure nicotine can be lethal in sufficient quantities. There is some evidence it may lead to changes in adolescent brain development, especially to the part responsible for intelligence, language and memory. <P> Nicotine has bad effects on the health of your lungs, too, although most of this risk comes from the act of smoking rather than from nicotine itself. Smoking is one of the worst things you can do for your lungs, especially if you have health conditions like asthma or allergies that already compromise your lung health. Paranoia sells and it gets lots of readers. So you may have rightly started to distrust news stories that talk about the latest dangers to your health. After all, everything from air to gluten has been linked to serious health risks. You may now be wondering just how bad nicotine really is for <P> Nicotine is a very strong poison that can kill a human in less than an hour if even a small amount is injected into the blood-stream. Tobacco smoke contains very tiny amounts of nicotine that aren't deadly, but are still very bad for our health. Tobacco smoke also contains many other chemicals. In fact, it contains over 4,000 chemicals, many of which are very harmful to our bodies. In fact, it's just the opposite: smoking is the only legal consumer product that kills you when you use it exactly how it's meant to be used! That's pretty scary, isn't it? Cigarettes are made from tobacco. The tobacco plant is the only plant ever discovered to contain the drug called nicotine. <P> The effects of nicotine itself are similar to that other popular drug, caffeine. See our (nicotine reading list.) There is no evidence that nicotine causes any substantial risk for cancer, and the research shows that the risk for cardiovascular disease is minimal. It seems that some people get substantial benefits that keep them using nicotine, while others do not. Some advocates seem to think that addiction is a terrible disease in itself (despite them not even having a good definition for it). <P> Tar sticks to the insides of your lungs and can cause cancer. Nicotine (a drug in tobacco) makes your blood vessels smaller. That means your heart has to work harder to pump the blood. A very dangerous gas called carbon monoxide is in cigarette smoke. In fact, it's just the opposite: smoking is the only legal consumer product that kills you when you use it exactly how it's meant to be used! That's pretty scary, isn't it? Cigarettes are made from tobacco. The tobacco plant is the only plant ever discovered to contain the drug called nicotine. <P> Well, here are 10 reasons smoking can not only cause a host of ailments but can also kill you. Reason #1: Is known to cause cancer. We all have heard about the fact that cigarette smoking causes cancer. But if you thought that cigarette smoking only led to lung cancer you are quite mistaken. Smoking leads to cancer of the nose, mouth, larynx (voice box), trachea, esophagus, stomach, pancreas, kidneys, bladder, cervix, bone marrow and blood. Wondering how it happens?	Nicotine has bad effects on the health of your lungs, too, although most of this risk comes from the act of smoking rather than from nicotine itself.
what kind of flower does bees like	<P> Bees love flowers. Sunflower, barberry, geranium, cornflower, and broom are some of the most popular and attractive to bees. Roses are a special favorite of all types of bees. Honeybees make great use of rose pollen and create delicious honey. Another favorite is catnip. This exciting plant isn't just for cats--bees love it, too. It is a large, 2- to 3-foot plant with big, bold flowers that bees find as irresistible as cats do. <P> ‘Little Becka’ sunflower is a great, compact variety for honeybees and the garden. The decline in honey bees (Apis mellifera) has heightened the popularity of honey bee plants. Many favorite flowers for honey bees, like sweetclover, thistle, alfalfa and dandelion, are Eurasian plants too weedy for flower beds. The best honey bee plants provide a good supply of both sugary nectar and protein-rich pollen sought after by these and other long-tongued bees. Lots of beautiful garden flowers provide both in high quantities. <P> What to Plant. Bees are not attracted to many types of trees, such as elm, birch and oak, or to conifers, ground covers or shrubs. Ornamental grasses are an excellent choice if you do not want to attract bees to your yard, as bees are not attracted to them and they add beauty to the landscape. Bees help pollinate many types of plants, including garden plants like cucumbers, but for people who are allergic or do not want to attract bees to their yard, they can be a nuisance. <P> Bees and Flowers. Bees are attracted to flower nectar and pollen. Pollen is a source of direct food and energy for bees, and nectar is used to make honey, which is saved up for food as well. Bees' relationship with flowers stems even further, as bees are not the only beneficiary. Flowers also benefit from bees by way of pollination. Even with the right plants, a variety of flowers and multiple bunches of flowers, other factors may come into play with attracting bees or not. Mulch, which has become popular over the years, is something that deters bees from entering a garden. There are many bees that nest in the ground, and they prefer plain dirt. <P> Submit. Pollinators are a sign of a healthy garden. When bees are welcomed in your flower bed, they help create strong blooms--and sometimes even new types of blooms--by pollination. As these busy workers jump from bloom to bloom to sip on nectar, they'll take no heed of the gardener working beside them. <P> Bees are attracted to tubular-shaped flowers that they can crawl into, or small, flat flowers that they can walk on. They like blooms with abundant nectar. To find plants that do not attract bees, look for those with the opposite bloom characteristics and avoid planting flowering fruit trees, poppies and roses. Bees help pollinate many types of plants, including garden plants like cucumbers, but for people who are allergic or do not want to attract bees to their yard, they can be a nuisance. <P> Bees love flowers. They collect both the nectar and pollen from flowers in order to produce honey and feed their young. As long as you have flowers in your garden, you will likely have bees. However, bees do prefer certain types of flowers, while other animal pollinators, such as butterflies and birds, prefer others. <P> Bees are attracted to a variety of bright colors, but blue, yellow and purple flowers are the most attractive to bees. Avoid flowers with those bloom colors and opt for flowers with red blooms. Bees do not see red -- it appears black to them -- so red flowers do not attract bees. Choose from the vast variety of red flowers available to avoid bees. Bees help pollinate many types of plants, including garden plants like cucumbers, but for people who are allergic or do not want to attract bees to their yard, they can be a nuisance.	Nectar and pollen
what is a rolo chain	<P> This week in our series on chain, we’re discussing cable and rolo chain. Cable chain, also called trace chain, and rolo chain, also called belcher chain, are all similar chain links that are found all over the jewelry world! In this picture, the left two chains are cable chains; the 3rd-from-left is a rolo chain; and the rightmost chain is a rounded cable chain. Next week, we’ll talk about curb chain, also called gourmette chain. <P> Sterling Silver Chain-Rollo. Interlocking links of the same dimension give this sterling silver chain a stylish, rounded look. Once you start using Rollo chain, you will want to incorporate it into all of your jewelry designs. All our bulk chain is sold by the foot. <P> This rolo chain necklace is made of fine sterling silver, plated with rhodium, and stamped with a 925 quality mark. Chain measures 2mm in width, secured with a lobster claw clasp. A beautiful birthday or anniversary gift for her. This rolo chain necklace is made of fine sterling silver, plated with rhodium, and stamped with a 925 quality mark. Chain measures 1mm in width, secured with a spring ring clasp. <P> toggle clasp or a dangle charm for a small additional charge. You can have. a custom length silver rolo chain, silver rolo bracelet or anklet that's made to fit you! ... Rolo Chain-A rolo chain is made up of symmetrical links (usually round or oval) that are connected tog ether. (see full article on Jewelry Chain s) ... Rolo Chain: Symmetrical links are joined tog ether for a cohesive effect. <P> Cable chain links are typically oval in shape, but may be round. The links are typically either made from round wire or flattened wire, but the link is always the same thickness around – which is what makes cable chain different from rolo chains. In this picture, the left two chains are cable chains; the 3rd-from-left is a rolo chain; and the rightmost chain is a rounded cable chain. Next week, we’ll talk about curb chain, also called gourmette chain. <P> Rolo chain is typically found in round symmetrical links, and may also be called belcher chain. Rolo chain is typically worn by itself, especially in bracelets and anklets, or as part of a wire jewelry design. Rolo chain llinks are typically made with half-round wire, meaning that the outside of the chain is rounded, but the inside is flat or even hollowed. In this picture, the left two chains are cable chains; the 3rd-from-left is a rolo chain; and the rightmost chain is a rounded cable chain. Next week, we’ll talk about curb chain, also called gourmette chain. <P> Rolo Chain (Rollo Chain). Popular rolo chain (also called rollo chain and belcher chain) works great for making jewelry. Choose sizes from 3.9mm to 11mm to meet your creative needs. Colors and platings include black chain (gunmetal chain), brass chain, copper chain, gold plated chain, silver plated chain, and more <P> Great variety of Silver Rollo Chains made by leading jewelers will satisfy the most demanding person. The prices will pleasantly surprise you. Best offer and the best quality for the Rollo Chain you were looking for that are really popular nowdays.	Rolo chain is typically worn by itself, especially in bracelets and anklets, or as part of a wire jewelry design.
what does lipoprotein lipase do	<P> LPL encodes lipoprotein lipase, which is expressed on endothelial cells in the heart, muscle, and adipose tissue. LPL functions as a homodimer, and has the dual functions of triglyceride hydrolase and ligand/bridging factor for receptor-mediated lipoprotein uptake. Lipoprotein lipase has been shown to interact with LRP1. It is also a ligand for α2M, GP330, and VLDL receptors. LPL has been shown to be a ligand for LRP2, albeit at a lower affinity than for other receptors; however, most of the LPL-dependent VLDL degradation can be attributed to the LRP2 pathway. <P> Primary function of the enzyme lipoprotein lipase. up vote 8 down vote favorite. I read here and here that the function of lipoprotein lipase is to facilitate fat uptake and storage in adipose tissue. Could anyone provide a slightly more expanded explanation, without going into too much detail, and without the use of too much jargon (I am not a biologist). <P> LPL requires ApoC-II as a cofactor. LPL is attached to the luminal surface of endothelial cells in capillaries by the protein glycosylphosphatidylinositol HDL-binding protein 1 (GPIHBP1) and by heparin sulfated proteoglycans. It is most widely distributed in adipose, heart, and skeletal muscle tissue, as well as in lactating mammary glands. Lipoprotein lipase has been shown to interact with LRP1. It is also a ligand for α2M, GP330, and VLDL receptors. LPL has been shown to be a ligand for LRP2, albeit at a lower affinity than for other receptors; however, most of the LPL-dependent VLDL degradation can be attributed to the LRP2 pathway. <P> Lipoprotein lipase (LPL) (EC 3.1.1.34) is a member of the lipase gene family, which includes pancreatic lipase, hepatic lipase, and endothelial lipase. Lipoprotein lipase has been shown to interact with LRP1. It is also a ligand for α2M, GP330, and VLDL receptors. LPL has been shown to be a ligand for LRP2, albeit at a lower affinity than for other receptors; however, most of the LPL-dependent VLDL degradation can be attributed to the LRP2 pathway. <P> The LPL gene provides instructions for making an enzyme called lipoprotein lipase. This enzyme is found primarily on the surface of cells that line tiny blood vessels (capillaries) within muscles and in fatty (adipose) tissue. The official name of this gene is “lipoprotein lipase.”. LPL is the gene's official symbol. The LPL gene is also known by other names, listed below. Read more about gene names and symbols on the About page. <P> Lipoprotein Lipase. Lipoprotein lipase is an enzyme that is important for the transfer of triglycerides from your blood lipoproteins into your tissues. Insulin stimulates lipoprotein lipase production, especially in your fatty tissues. The enzyme then adheres to the inside of tiny blood vessels in your tissues called capillaries. Lipoprotein lipase breaks down the triglycerides in the lipoproteins to smaller fatty acids and monoglycerides that are transported into your tissues and either burned for fuel or re-assembled into triglycerides for storage. <P> Lipoprotein Lipase. An enzyme of the hydrolase class that catalyzes the reaction of triacylglycerol and water to yield diacylglycerol and a fatty acid anion. The enzyme hydrolyzes triacylglycerols in chylomicrons, very-low-density lipoproteins, low-density lipoproteins, and diacylglycerols. Lipoprotein lipase. Lipoprotein lipase is a member of the lipase gene family, which includes pancreatic lipase, hepatic lipase, and endothelial lipase. <P> Lipoprotein lipase breaks down triglycerides carried by two different types of lipoproteins, which bring fat to the bloodstream from different organs. Fat from the intestine, which is taken in from the diet, is transported to the bloodstream by lipoproteins called chylomicrons. The official name of this gene is “lipoprotein lipase.”. LPL is the gene's official symbol. The LPL gene is also known by other names, listed below. Read more about gene names and symbols on the About page. <P> Insulin and lipoprotein lipase work together in your body to use extra calories from carbohydrates in your diet to make and store fats. Insulin is a pancreatic hormone that is commonly known to regulate your blood sugar level, but it also regulates the production of fats from carbohydrates. Lipoprotein lipase breaks down the triglycerides in the lipoproteins to smaller fatty acids and monoglycerides that are transported into your tissues and either burned for fuel or re-assembled into triglycerides for storage.	Lipoprotein lipase is an enzyme that is important for the transfer of triglycerides from your blood lipoproteins into your tissues.
how historically accurate is vikings	<P> You get the point. The Vikings are my nerd obsession. So when the History Channel announced its first ever scripted docudrama Vikings I was more than a little too excited for my own good: Not least because I see it as a catalyst to engage the wider public in a conversation about archaeology and history. Well, to start with, we should acknowledge what it is. Michael Hirst, who wrote the film Elizabeth and brought you HBO's soapy bodice ripper The Tudors, created Vikings. So we know Hirst is going to go for the sensational elements of Viking culture. <P> What It Gets Right. April's season three finale of Vikings on the History Channel left a giant Vikings-size hole in our collective television hearts. What's a fan to do waiting for our favorite Scandinavian heroes and heroines to come back to us? For starters, she calls the characters Danes instead of Vikings, because, she explains, Viking actually means 'pirate' in Old English, which is to say that it is an action or a profession. <P> Vikings is not historically accurate. “In 845, a Viking warlord named Ragnar Lodbrok attacked Paris and had to be bought off with 7,000 French livres (pounds) (2,570 kilograms (5,670 lb)) of gold and silver. King Horik seems to have disapproved of these raids, for successful raiders constituted possible rivals. One the best books I know on the Vikings is actually exclusively about Iceland but deals brilliantly with their culture – that’s Jesse Byock’s Viking Age Iceland. A wonderful read. Graham-Campbell’s Cultural Atlas of the Viking World and Campbell’s Anglo-Saxons provide great introductions to the period. <P> For the 2012 BBC Documentary series, see Vikings (TV documentary series) . Vikings is an Irish-Canadian historical drama television series written and created by Michael Hirst for the television channel History. Filmed in Ireland, it premiered on 3 March 2013 in the United States and Canada. Further inspiration is taken from historical sources of the period, such as records of the Viking raid on Lindisfarne depicted in the second episode, or Ahmad ibn Fadlan 's 10th-century account of the Volga Vikings. <P> Similar to The Bible, Vikings has incredible ratings but huge gaps in terms of historical accuracy. History aside, the show is entertaining. Tune in this Sunday at 9/8c for Vikings episode 6, Burial of the Dead on History Channel. There's a lot that can be said about the historical inaccuracies of History Channel's Vikings miniseries. The Vikings had never heard of the British Isles or the 'starboard' side of a ship <P> If you made a show about everyday life during the vikings time most would be dull and not exciting it is not like they went to battle everyday. The show has a lot of historical basis with some liberties taken to liven the show up. It is well produced and has great cinematography. <P> In Conclusion. Despite some of the historical inaccuracies, Vikings is a great television series. It is super fun to watch and if you are an amateur historian it is great to discuss and debate the facts and foibles from each episode. Regardless of where Vikings may go astray, the general feel and mood representing Dark Ages Scandinavia seems to ring true — more or less! This week’s post is going to look at fun facts, accuracies, flaws and historical debates surrounding the show Vikings. <P> Share This Tweet This. By now, we are all familiar with Vikings, either thanks to the hit show on the History Channel, or through various bits of history that we have learned in school. Vikings, like many other ancient societies, have a lot of myths and misconceptions attached to their facts. Here are the top 10 myths about Vikings, and what the show Vikings shows about real Viking life. 10. One Nation. As those of us who watch The History Channel show Vikings has figured out, Vikings aren't united by geography. There are Vikings from modern-day Scandinavia, which includes the nations of Norway, Sweden, and Denmark	April's season three finale of Vikings on the History Channel left a giant Vikings-size hole in our collective television hearts.