One molecule of glucose, because 2 ATPs are formed when glucose is broken down to pyruvic acid.
To produce one molecule of glucose, six molecules of G3P are required.
2 ATP are produced in anaerobic respiration(fermentation)
At the end of glycolysis, the original carbons of the glucose molecule form two molecules of pyruvate.
Glucose molecules are larger than water molecules.
In glycolysis, one glucose molecule produces a net yield of two ATP molecules at the end of the process.
40
Water (H2O) molecules, one on either side of the molecule.
Six oxygen molecules are released when one glucose molecule is formed.
To produce one molecule of glucose, six molecules of G3P are required.
Yes, sucrose molecules are larger than glucose molecules. Sucrose is a disaccharide composed of one glucose molecule and one fructose molecule, while glucose is a monosaccharide. This difference in structure accounts for the difference in size between the two molecules.
The starting molecules for glycolysis are glucose and two ATP molecules. Glucose is broken down into two molecules of pyruvate through a series of enzymatic reactions, producing energy in the form of ATP and NADH.
It takes 2 monosaccharide molecules to form a maltose molecule. Those are 2 glucose molecules. So 2 glucose molecules join together to make 1 maltose molecule.
The byproduct of the condensation of two molecules of glucose is a water molecule.
In the process of photosynthesis, 6 molecules of carbon dioxide react with 6 molecules of water to form one molecule of glucose and 6 molecules of oxygen. Thus, 12 molecules of hydrogen are required to form one molecule of glucose (from the 6 molecules of water).
There are 2 FAD and NAD and molecules. This is to breakdown each glucose molecule.
about 36 to 38 ATP molecules are produced for every glucose molecule.
2 ATP are produced in anaerobic respiration(fermentation)