I had this in Biology a few weeks ago, but it may be wrong. Try googling it first.
C6+H12+06 ----> C02+glucose or something along those lines. All you needed to know was the products, correct? I am SURE that those are correct.
The products of light-dependent pathways of photosynthesis are Oxygen, ATP, and NADPH.
The primary product is a leaf.
Create products for which the light-independent reaction is able to use to continue the rest of photosynthesis.
ATP is generated in the light independent reactions and is then used in the dark reactions to synthesize carbohydrates. ATP plays the role of the product of phosphorylation of ADP.
Glucose, NADP and ADP
The dark reactions that occur in plants are dependent on the light reactions because the dark reactions need ATP and NADPH. ATP and NADPH are energy molecules that dark reactions need to do their job.
Light Reactions and the Calvin Cycle Reactions.
Light-dependent reactions produce ATP, NADPH, and oxygen gas.
Oxygen
Create products for which the light-independent reaction is able to use to continue the rest of photosynthesis.
Light-dependent reactions are those that require light to proceed.
The products of light-dependent reactions are used in light-independent reactions.
ATP is generated in the light independent reactions and is then used in the dark reactions to synthesize carbohydrates. ATP plays the role of the product of phosphorylation of ADP.
Light-dependent reactions are in the thylakoid membrane inside the chloroplasts. Light-dependent reactions need light energy and are the first step of photosynthesis.
In light dependent reactions ATP and NADPH are produced
The light-dependent reactions will not occur.
The primary purpose of the light dependent portion of photosynthesis is to convert light energy into chemical energy stored in ATP and NADPH, which will then be used in the light independent reactions.
The light dependent reaction produces two useful substances for the plant: ATP and NADPH. In addition it produces a waste product, oxygen gas.
Glucose and Oxygen