One
One
In aerobic respiration, 12 molecules of acetic acid (2 per glucose molecule) are produced from six molecules of glucose, through the conversion of pyruvate to acetyl-CoA in the citric acid cycle.
there are a total of four produced in the process, but two are used in the process, leaving you with a net gain of two ATP molecules
One molecule of glucose is formed.
12
1
28
Six molecules of glucose produce 12 molecules of acetic acid through the process of aerobic respiration.
Aerobic respiration in eukaryotic cells, specifically during the electron transport chain in mitochondria, produces the most number of ATP molecules per glucose oxidized. This process can yield up to 36-38 ATP molecules per glucose molecule.
Aerobic respiration is like burning because both processes involve a series of chemical reactions that release energy from the breakdown of organic molecules (such as glucose) using oxygen. In both cases, carbon dioxide and water are produced as byproducts.
Two ATP molecules are needed to activate glucose during the initial steps of glycolysis, where glucose is converted to glucose-6-phosphate. This process requires the input of energy in the form of ATP to initiate the breakdown of glucose.
The electron transport chain produces approximately 34 ATP molecules from one molecule of glucose during cellular respiration. This process occurs in the inner mitochondrial membrane and is the final step in aerobic respiration.
Carbon dioxide, water and energy are produced by aerobic respiration. The word equation for aerobic respiration is: Glucose + oxygen --> carbon dioxide + water + energy Energy and lactic acid are produced by anerobic respiration The word equation for anaerobic respiration is: Glucose --> energy + lactic acid
36 molecules when using aerobic respiration, but only 2 when using anaerobic
with enzyme.Cellular respiration need glucose.This glucose is produced in photosynthesis
36 molecules when using aerobic respiration, but only 2 when using anaerobic.
The aerobic (using oxygen) respiration is a high energy yielding process. During the process of aerobic respiration as many as 38 molecules of ATP are produced for every molecule of glucose that is utilized. Thus aerobic respiration process breaks down a single glucose molecule to yield 38 units of the energy storing ATP molecules.The process of anaerobic respiration (no oxygen) is relatively less energy yielding as compared to the aerobic respiration process.During anaerobic respiration two molecules of ATP (energy) are produced for every molecule of glucose used in the reaction.
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
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.
Biology textbooks often state that 38 ATP molecules can be made per oxidized glucose molecule during cellular respiration (2 from glycolysis, 2 from the Krebs cycle, and about 34 from the electron transport system).
Aerobic respiration (using oxygen) is a high energy yielding process. During the process of aerobic respiration as many as 38 molecules of ATP are produced for every molecule of glucose that is utilized. Thus aerobic respiration process breaks down a single glucose molecule to yield 38 units of the energy storing ATP molecules.
in aerobic respiration: glucose + oxygen --> carbon dioxide + water + energy In anaerobic respiration: glucose --> lactic acid + energy
36 molecules of ATP are produced from one molecule of glucose as a result of aerobic cellular respiration.