formation of acetyl Co-A
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Action of water on calcium carbide is used for the preparation of acetylene gas used in welding after the reaction calcium carbide is converted into slaked lime the balanced equation for the reaction is-
=> CaC2 + H2O ---------> Ca(OH)2 + C2H2
hope it helps u
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Action of water on calcium carbide is used for the preparation of acetylene gas used in welding after the reaction calcium carbide is converted into slaked lime the balanced equation for the reaction is-
=> CaC2 + H2O ---------> Ca(OH)2 + C2H2
hope it helps u
plzzz mark as brainliest
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The junction between glycosisnext step, the Krebs cycle.
The initiator of the citric acid cycle is acetyl co-enzyme A so its formation is important. The creation of this enzyme is a crucial step in the cellular respiration cycle. From the last step glycolsis, pyruvate was made. Acetyl CoA's most important steps are the decarboxylation (1) and the addition of coenzyme A (3).The first step in acetyl CoA formation is to remove the carboxyl group which then releases CO2. By doing so, a two carbon compound is formed. This is all done through a process called oxidative decarboxylation with the enzyme pyruvate dehydrogenase. This two carbon compound is oxidized forming acetate (CH3COO-).When this occurs, energy is released and the extracted electrons then move to NAD+. NAD+ , an important co enzyme, removes two hydrogens and two electrons from the pyruvic acid. This then creates NADH which is important to regenerate NAD+
The initiator of the citric acid cycle is acetyl co-enzyme A so its formation is important. The creation of this enzyme is a crucial step in the cellular respiration cycle. From the last step glycolsis, pyruvate was made. Acetyl CoA's most important steps are the decarboxylation (1) and the addition of coenzyme A (3).The first step in acetyl CoA formation is to remove the carboxyl group which then releases CO2. By doing so, a two carbon compound is formed. This is all done through a process called oxidative decarboxylation with the enzyme pyruvate dehydrogenase. This two carbon compound is oxidized forming acetate (CH3COO-).When this occurs, energy is released and the extracted electrons then move to NAD+. NAD+ , an important co enzyme, removes two hydrogens and two electrons from the pyruvic acid. This then creates NADH which is important to regenerate NAD+
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