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The human heart has two atria (a right and a left atrium) and two ventricles (a right and a left ventricle).
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The right atrium of the human heart pumps the blood to the right ventricle.
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The right ventricle receives oxygen-poor blood from the right atrium and pumps it to the lungs through the pulmonary artery.
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The right atrium of the human heart pumps the blood to the right ventricle.
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the right ventricle receives oxygen-poor blood from the right atrium and pumps it to the lungs through the pulmonary artery;
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The right atrium of the human heart pumps the blood to the right ventricle.
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A capillary blood vessel.
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Oxygen is transferred through capillaries.
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CAPILLARIES The smallest blood vessels where oxygen, foods, and hormones enter the cells and carbon dioxide and wastes are removed.
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Oxygen is transferred through capillaries.
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CAPILLARY a small blood vessel.
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Oxygen is transferred through capillaries.
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Capillaries The smallest blood vessels in the body through which most of the oxygen, carbon dioxide, and nutrient exchanges take place.
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Oxygen is transferred through capillaries.
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Capillaries The tiniest blood vessels.
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Oxygen is transferred through capillaries.
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Capillaries are our smallest blood vessels.
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Oxygen is transferred through capillaries.
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Capillaries are those small vessels within the tissues from which oxygen transfer takes place.
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Oxygen is transferred through capillaries.
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Capillary -- Smallest blood vessels in the body.
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Oxygen is transferred through capillaries.
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Capillary Capillary is the smallest blood vessel.
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Oxygen is transferred through capillaries.
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Oxygen delivery to surrounding tissues takes place through the thin, porous walls of the smallest of these interconnecting vessels, known as capillaries , where the blood flows most slowly.
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Oxygen is transferred through capillaries.
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The CAPILLARIES are the smallest of the blood vessels.
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Oxygen is transferred through capillaries.
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The capillaries transports the oxygen into the blood vessels to be transported around the body.
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Oxygen is transferred through capillaries.
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The gills contain thousands of tiny capillaries (blood vessels), so as water passes over the gills, oxygen is absorbed directly into the bloodstream.
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Oxygen is transferred through capillaries.
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The last oxygen concentration is in pulmonary end-capillary blood.
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Oxygen is transferred through capillaries.
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Well ventilated alveoli (high PO 2 in capillary blood) cannot make up for the oxygen not transferred in the underventilated alveoli with a low PO 2 in the capillary blood.
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Oxygen is transferred through capillaries.
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A glucose sugar molecule produced by plants and algae via the process of photosynthesis.
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Glucose is a carbohydrate that is produced by photosynthesis.
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A plant produces oxygen and carbohydrates, such as sucrose, glucose, or starch during photosynthesis.
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Glucose is a carbohydrate that is produced by photosynthesis.
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Ans. During photosynthesis carbohydrates are formed in the form of Glucose (C6 H12 O6) and stored in the plant as starch (C6 H12 O6) and Oxygen is a photochemical by product of photosynthesis..
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Glucose is a carbohydrate that is produced by photosynthesis.
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During photosynthesis the plants produce glucose and release oxygen as a waste product.
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Glucose is a carbohydrate that is produced by photosynthesis.
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Glucose --is a monosaccharide, or simple sugar produced through photosynthesis.
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Glucose is a carbohydrate that is produced by photosynthesis.
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In photosynthesis, plants use light energy to produce glucose from carbon dioxide.
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Glucose is a carbohydrate that is produced by photosynthesis.
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It combines with glucose, carbohydrates, whatever, to produce alcohol.
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Glucose is a carbohydrate that is produced by photosynthesis.
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Photosynthesis -- process in which cells capture energy contained in sunlight and convert it to chemical energy in the form of the carbohydrate called glucose .
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Glucose is a carbohydrate that is produced by photosynthesis.
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Photosynthesis is used by plants and some types of bacteria to produce glucose, a type of sugar.
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Glucose is a carbohydrate that is produced by photosynthesis.
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Plants produce glucose through a process known as photosynthesis.
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Glucose is a carbohydrate that is produced by photosynthesis.
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Sunlight is captured by green plants during the process of photosynthesis to produce glucose, a carbohydrate from water and carbon dioxide.
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Glucose is a carbohydrate that is produced by photosynthesis.
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The brain needs glucose to function, and by not eating enough carbohydrates, not enough glucose is produced.
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Glucose is a carbohydrate that is produced by photosynthesis.
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The definition of photosynthesis is when plants process water and carbon dioxide to produce glucose by the process of photosynthesis.
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Glucose is a carbohydrate that is produced by photosynthesis.
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The products of photosynthesis are a class of compounds called carbohydrates, the most common and important of which is glucose (C6H12O6).
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Glucose is a carbohydrate that is produced by photosynthesis.
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glucose Noun simple sugar chemical produced by many plants during photosynthesis.
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Glucose is a carbohydrate that is produced by photosynthesis.
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glucose is produced as a result of photosynthesis (and he was closer to reality than SACHS was later) and that
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Glucose is a carbohydrate that is produced by photosynthesis.
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one molecule is the initial end product of photosynthesis; it is quickly converted to glucose and other carbohydrates, lipids or amino acids
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Glucose is a carbohydrate that is produced by photosynthesis.
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% Beautiful people, but more acting ability can be found in simple carbohydrates.
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Simple carbohydrates can be classified in terms of chain length.
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+ Cases can be classified as simple or complicated.
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Simple carbohydrates can be classified in terms of chain length.
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An excess of simple carbohydrates can provide too much too soon.
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Simple carbohydrates can be classified in terms of chain length.
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And there are some forms of carbohydrates--such as glycogen, cellulose, and starches--that have several (sometimes even hundreds) of the simple sugar molecules linked in a chain.
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Simple carbohydrates can be classified in terms of chain length.
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Another example of simple carbohydrates can be fruits and fruit juices.
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Simple carbohydrates can be classified in terms of chain length.
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Any simple or complex carbohydrate can be fermented to produce ethanol.
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Simple carbohydrates can be classified in terms of chain length.
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At present there are several carbohydrate-based compounds marketed with important pharmaceutical application (6) and many of these compounds can be classified as monosaccharides or simple disaccharides (Figure 1).
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Simple carbohydrates can be classified in terms of chain length.
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But carbohydrate counting can range from simple to complex.
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Simple carbohydrates can be classified in terms of chain length.
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By cutting back on simple carbohydrates, the rate of dental caries can be reduced.
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Simple carbohydrates can be classified in terms of chain length.
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Carbohydrates can be shorter chains of ten or fewer sugar molecules (simple carbohydrates).
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Simple carbohydrates can be classified in terms of chain length.
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Complex carbohydrates consist of long chain sugar molecules that break down much more slowly than simple carbohydrates.
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Simple carbohydrates can be classified in terms of chain length.
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In simple terms, Wurtman suggests that people can relieve tension by eating separate meals consisting solely of carbohydrates, such as breads, potatoes, and pasta.
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Simple carbohydrates can be classified in terms of chain length.
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Information In general, we can think of carbohydrates as either simple or complex.
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Simple carbohydrates can be classified in terms of chain length.
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It is rarely, however, that food chains can be expressed in such simple terms.
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Simple carbohydrates can be classified in terms of chain length.
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MI can be classified as simple or complicated.
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Simple carbohydrates can be classified in terms of chain length.
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Molecules of these simple sugars attach together to make long branching chains that are called complex carbohydrates.
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Simple carbohydrates can be classified in terms of chain length.
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Refined sugars (candy), or simple carbohydrates provide quick short-term energy.
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Simple carbohydrates can be classified in terms of chain length.
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Some of your total carbohydrate intake can consist of simple sugars.
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Simple carbohydrates can be classified in terms of chain length.
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The ratiocination can be simple or a chain of reasoning.
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Simple carbohydrates can be classified in terms of chain length.
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The sugars or simple carbohydrates can be found in fruit, milk and ordinary table sugar.
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Simple carbohydrates can be classified in terms of chain length.
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The value of classifying carbohydrates as simple or complex is questionable.
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Simple carbohydrates can be classified in terms of chain length.
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Try to avoid as many sources of simple carbohydrates as you can.
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Simple carbohydrates can be classified in terms of chain length.
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Who can find some other words for sugar or simple carbohydrates???
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Simple carbohydrates can be classified in terms of chain length.
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A Effect of Altitude on Oxygen Binding by Hemoglobin and on Organic Phosphate Levels.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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As explained above, 2,3 diphosphoglycerate molecules bind to the hemoglobin molecule in the taut configuration and stabilize that quaternary confirmation of the molecule, thereby favoring the low oxygen affinity state.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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As the concentration of oxygen increases, the oxygen diffusesinto the blood cells, where it binds with hemoglobin (Hb) and becomes oxyhemoglobin (O 2 Hb).
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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Hemoglobin binds oxygen cooperatively due to steric conformation changes in the protein complex, which increases hemoglobin's affinity for oxygen when partially oxygenated.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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One oxygen molecule can bind to the ferrous iron of a heme molecule in each of the four chains of a hemoglobin molecule.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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Oxidized hemoglobin (that is, met-hemoglobin) is unable to bind oxygen.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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Root-effect hemoglobin, to study extreme pH effects on allostery and oxygen binding;
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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Since hemoglobin is the main component of red blood cells and the carrier for oxygen molecules, anemia occurs when the hemoglobin supply is inadequate or if the hemoglobin is dysfunctional.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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Temperature, pH, and Metabolites Affect the Oxygen-Hemoglobin Curve Increased temperature decreases the affinity of hemoglobin for oxygen (resulting in a shift of the curve to the right) and vice versa.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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The heme-iron moiety of the hemoglobin molecule allows binding and release of oxygen, dependent upon the partial oxygen tension to which the hemoglobin is exposed.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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Use a graph to show the relative differences in binding oxygen molecules by hemoglobin and myoglobin.
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Hemoglobin is a carrier molecule that becomes less effective at binding oxygen as temperature increases.
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All life on Earth is based on the element carbon, and living things make chemical changes to this carbon.
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Carbon is the basis of all life on earth.
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All living systems on earth utilize large amounts of the element carbon in their life processes.
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Carbon is the basis of all life on earth.
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Carbon is the basis for all our life forms.
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Carbon is the basis of all life on earth.
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Carbon is a basic element for all life forms.
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Carbon is the basis of all life on earth.
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Carbon is a key element to all known life.
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Carbon is the basis of all life on earth.
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Carbon is element number 6 and is the basis for the chemistry of nearly all life here on earth so it is no wonder that its chemistry was first associated only with life.
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Carbon is the basis of all life on earth.
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Carbon is the basis for all life forms on Earth, and nitrogen and oxygen make up the air that we breathe.
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Carbon is the basis of all life on earth.
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Carbon is the basis of life.
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Carbon is the basis of all life on earth.
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Carbon is the fourth most abundant element in the Universe and the basis for all life on Earth.
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Carbon is the basis of all life on earth.
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it contains the chemical elements carbon and hydrogen.
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Carbon is the basis of all life on earth.
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life on Earth is carbon-based
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Carbon is the basis of all life on earth.
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Activated carbon is the most common element in military gas masks.
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Carbon is the most found element in living organisms.
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All living organisms are made mostly of carbon and continue to maintain their carbon levels while they are still living.
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Carbon is the most found element in living organisms.
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Carbon is the most versatile of all elements.
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Carbon is the most found element in living organisms.
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Case hardening is a thermochemical diffusion process in which an alloying element, most commonly carbon or nitrogen, diffuses into the surface of a monolithic metal.
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Carbon is the most found element in living organisms.
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Elements such as carbon, nitrogen, or phosphorus enter living organisms in a variety of ways.
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Carbon is the most found element in living organisms.
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First, the six-sided rings can include elements besides carbon, most commonly nitrogen and sulfur.
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Carbon is the most found element in living organisms.
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Genes are composed of some of the most common elements such as carbon, hydrogen, oxygen, nitrogen and phosphorous.
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Carbon is the most found element in living organisms.
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H atoms are most commonly bonded to carbon (C) atoms in organic compounds.
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Carbon is the most found element in living organisms.
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He describes some of the most common systems through which elements flow globally, such as the carbon and nitrogen cycles.
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Carbon is the most found element in living organisms.
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In contrast to carbon, nitrogen is one of the most inert of elements while in the animal organism.
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Carbon is the most found element in living organisms.
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Isotope- ratio mass spectrometers are particularly valuable for analyzing light elements like hydrogen, oxygen, and carbon, which just so happen to be the most common elements in living things.
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Carbon is the most found element in living organisms.
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One of the most common elements in nature -- more plentiful than even carbon -- is also one of the most basic to life.
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Carbon is the most found element in living organisms.
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Oxygen is the third-most common element by mass in the universe (although carbon forms more of the atoms it is a lighter atom).
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Carbon is the most found element in living organisms.
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Sulfates, nitrates, and elemental and organic carbon are most effective at scattering or absorbing light.
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Carbon is the most found element in living organisms.
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The carbon cycle represents the circulation and recycling of the chemical element carbon in nature as a result of the effect of living organisms.
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Carbon is the most found element in living organisms.
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The flow of materials involves the recycling of carbon, nitrogen, phosphorus and other elements between living organisms and the air, water, and soil.
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Carbon is the most found element in living organisms.
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Adult-onset Diabetes Former term for noninsulin-dependent or type II diabetes.
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Type 2 diabetes is also known as noninsulin-dependent or adult-onset diabetes.
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Adult-onset diabetes Also known as Type II diabetes or noninsulin-dependent diabetes.
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Type 2 diabetes is also known as noninsulin-dependent or adult-onset diabetes.
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But failure of the pancreas to respond properly can lead to adult-onset diabetes, also known as noninsulin-dependent diabetes mellitus, or type II diabetes.
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Type 2 diabetes is also known as noninsulin-dependent or adult-onset diabetes.
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DM has two forms, referred to as type 1 diabetes (formerly called juvenile diabetes, or insulin-dependent diabetes mellitus, or IDDM) and type 2 diabetes (formerly called adult-onset diabetes, or noninsulin-dependent diabetes mellitus, or NIDDM).
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Type 2 diabetes is also known as noninsulin-dependent or adult-onset diabetes.
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