Adenosine triphosphate, Nicotinamide adenine dinucleotide phosphate (NADP+), NADPH, and oxygen.
More technically, non-cyclic photophosphorylation produces ATP (through an electron transport chain) for use in the cell and NADPH for use in the Calvin Cycle (light-independent reactions).
For those looking for a slightly different answer, you will want: D. all of the above
NADPH, O2 and ATP
Oxygen, ATP, and NADPH
oxygen, ATP and NADPH
Glucose, NADP and ADP
Create products for which the light-independent reaction is able to use to continue the rest of photosynthesis.
Basically, the light-trapping reactions trap sunlight within them. The products of these reactions are glucose and chlorophyll. These products are coupled to the synthesis of carbohydrates because when carbohydrates are synthesized, glucose is created. Both reactions have a product of glucose. This is how they are related/coupled.
The chemical products are oxygen, ATP, and NADPH.
NADPH and ATP
The products of light-dependent reactions are used in light-independent reactions.
ATP and NADPH
ATP and NADPH
Glucose
ATP and NADPH2
Glucose, NADP and ADP
Free energy and light.
Create products for which the light-independent reaction is able to use to continue the rest of photosynthesis.
Basically, the light-trapping reactions trap sunlight within them. The products of these reactions are glucose and chlorophyll. These products are coupled to the synthesis of carbohydrates because when carbohydrates are synthesized, glucose is created. Both reactions have a product of glucose. This is how they are related/coupled.
The chemical products are oxygen, ATP, and NADPH.
The main purpose of the light independent reaction is to produce glucose.
The products of the light reactions will typically go into the atmosphere around the organism. These products are picked up by animals as well.