Th synthesize one molecule of hexose sugar by photosynthesis six molecules of carbon dioxide are required to be assimilated. Since oxygen comes out by photolysis of water double the number of molecules of water are required to release six molecules of oxygen.
Three molecules of H2 are required to completely react with six molecules of N2 to form ammonia (NH3) according to the balanced chemical equation: N2 + 3H2 β 2NH3.
If we have 150 nitrogen molecules, we would need an equal number of hydrogen molecules to react with them according to the balanced reaction equation for the formation of ammonia: N2 + 3H2 β 2NH3 Therefore, we would need 150 hydrogen molecules to react with 150 nitrogen molecules.
A partially permeable membrane is required for osmosis to occur. This membrane allows the passage of solvent molecules (usually water) while preventing the passage of solute molecules.
For every six molecules of carbon dioxide (CO2) taken in during the process of photosynthesis, one molecule of glucose (C6H12O6) is produced. This means that six molecules of CO2 are required to produce one molecule of glucose.
For what purpose?
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Th synthesize one molecule of hexose sugar by photosynthesis six molecules of carbon dioxide are required to be assimilated. Since oxygen comes out by photolysis of water double the number of molecules of water are required to release six molecules of oxygen.
It is not at all required to have a baby, it is up to you and what you want.
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).
Two ATP molecules are required to start glycolysis. These ATP molecules are used in the first steps of glycolysis to prime the glucose molecule for breakdown.
Three molecules of H2 are required to completely react with six molecules of N2 to form ammonia (NH3) according to the balanced chemical equation: N2 + 3H2 β 2NH3.
many pepsinogen molecules remain unchanged
Three molecules of ATP are required to regenerate one molecule of RuBP from five molecules of G3P during the Calvin cycle of photosynthesis.
If we have 150 nitrogen molecules, we would need an equal number of hydrogen molecules to react with them according to the balanced reaction equation for the formation of ammonia: N2 + 3H2 β 2NH3 Therefore, we would need 150 hydrogen molecules to react with 150 nitrogen molecules.
It is required to supply chemical energy, organic molecules, and essential nutrients
If your question is correct: the carbon dioxide is the first compound and the water is the second compound.