Carbon atoms from a complex organic food molecule, such as glucose, are completely oxidized at the end of its reaction chain. Carbon dioxide is the waste that is released as a result of this reaction.
The electron transport chain stage produces the most ATP when glucose is completely oxidized to carbon dioxide and water, generating up to 34 molecules of ATP per glucose molecule.
In aerobic respiration, glucose is completely oxidized to produce carbon dioxide, water, and ATP. This process occurs in the presence of oxygen and is the most efficient way for cells to generate energy.
Krebs cycle yields very little ATP energy. Some of the important products of this cycle are NADH, FADH2, and CO2. Most of the ATP energy will be synthesized in electron transport chain.
When cell oxidize glucose molecule is 'not' a chemical oxidation, in which sudden energy is released. This is called as 'biological oxidation'. In which energy is released in step wise manner. So you get 38 ATP molecules/glucose molecule oxidized and proportion of heat is released to keep the cell warm.
Carbon atoms from a complex organic food molecule, such as glucose, are completely oxidized at the end of its reaction chain. Carbon dioxide is the waste that is released as a result of this reaction.
Six CO2 molecules will be produced for every glucose molecule completely oxidized. Glucose contains six Carbon atoms, hence the six CO2 molecules.
oxidized
The electron transport chain stage produces the most ATP when glucose is completely oxidized to carbon dioxide and water, generating up to 34 molecules of ATP per glucose molecule.
In aerobic respiration, glucose is completely oxidized to produce carbon dioxide, water, and ATP. This process occurs in the presence of oxygen and is the most efficient way for cells to generate energy.
For every molecule of glucose oxidized in the citric acid cycle, 6 molecules of carbon dioxide are produced. Glucose is a 6-carbon molecule that is completely oxidized to carbon dioxide in this cycle. Therefore, the fraction of carbon dioxide exhaled by animals that is generated by the citric acid cycle is 100%.
Each molecule of glucose requires six molecules of oxygen for complete oxidation during aerobic respiration.
Glucose is. In cell respiration, the carbon atoms of glucose are oxidized.
The reactant that is oxidized in respiration is glucose. Glucose is broken down through a series of biochemical reactions to release energy in the form of ATP, and in the process, it loses electrons, which is characteristic of oxidation.
Krebs cycle yields very little ATP energy. Some of the important products of this cycle are NADH, FADH2, and CO2. Most of the ATP energy will be synthesized in electron transport chain.
When cell oxidize glucose molecule is 'not' a chemical oxidation, in which sudden energy is released. This is called as 'biological oxidation'. In which energy is released in step wise manner. So you get 38 ATP molecules/glucose molecule oxidized and proportion of heat is released to keep the cell warm.
It means that when one molecule of glucose is completely broken down by the process of aerobic cellular respiration, 38 molecules of ATP are produced.