There can be up to 12 PGAL molecules during the Calvin cycle
None. The Calvin cycle uses ATP and results in ADP.
One molecule of PGAL has 3 carbons in it (therefore three turns are necessary). Six molecules would therefore require 18 turns of the Calvin Cycle.
The Calvin cycle does not directly require water molecules. It uses carbon dioxide, ATP, and NADPH to produce sugar molecules. Water molecules are indirectly involved in the Calvin cycle through the light-dependent reactions of photosynthesis, where they are split to provide electrons for the production of ATP and NADPH.
There are no glucose molecules produced in the light reaction. The light reaction produces ATP and NADPH, which are used in the Calvin cycle to produce glucose from CO2.
Dear friend, in Calvin cycle only two kinds of trioses (3C sugars) are formed. In fact, these are not sugars but phospoesters. One is phospoglyceraldehyde and second is dihydroxyacetone phosphate. These are isomers of each other.
During the Calvin cycle, three molecules of G3P are required to regenerate one molecule of RuBP.
Six molecules of G3P are required to produce one molecule of glucose during the Calvin cycle.
During the Calvin cycle, 3 molecules of G3P are needed to make one molecule of a larger organic compound.
co2 isn't released in the Calvin cycle it takes in 3 co2 to produce one G3P molecule and does that twice to produce C6H12O6
glucose
The Calvin cycle turns once during photosynthesis.
If the Calvin Cycle is performed 12 times, a total of 36 net molecules of G3P will be produced.
None. The Calvin cycle uses ATP and results in ADP.
One molecule of PGAL has 3 carbons in it (therefore three turns are necessary). Six molecules would therefore require 18 turns of the Calvin Cycle.
Three molecules of high-energy sugars (G3P) are produced as a result of one Calvin cycle, which is a process in photosynthesis that converts carbon dioxide into sugars. These sugars are important in providing energy for the plant and serving as building blocks for other molecules.
There are many similarities, as well as differences. However, I think the main point would be, that if we only look at the larger picture and not the particular steps of the cycles, the two can be thought of as being a reversal of each other. The Calvin cycle captures carbon dioxide to make organic molecules. The Krebs cycle breaks down organic molecules to produce energy - and releases carbon dioxide in the process.
The products of the Calvin cycle are the three carbon sugar phosphate molecules or the triose phosphates (G3P). The products formed after a single turn of the Calvin cycle are 3 ADP, 2 glyceraldehyde-3-phosphate (G3P) molecules, and 2 NADP+.