ATP and NADPH
No- the light reactions produce oxygen, and no carbon compounds. The dark reactions (Calvin Cycle) produce 3- and 5-carbon intermediates, and 6-carbon sugars.
ATP and NADPH
NADPH
1. Calvin cycle takes place in the stroma and light- dependent reactions take place in the granum, also light is not required for all the reactions of Calvin cycle.2. Calvin cycle assimilates CO2 to form organic compounds whereas in light reactions photolysis of water leads the formation of energy rich inorganic compounds.
It uses the energy that ATP and NADPH contain to build high energy compounds. It uses ATP and NADPH from light-dependent reactions to produce high energy sugars.
No- the light reactions produce oxygen, and no carbon compounds. The dark reactions (Calvin Cycle) produce 3- and 5-carbon intermediates, and 6-carbon sugars.
ATP and NADPH
Burning.
Light-dependent reactions produce ATP, NADPH, and oxygen gas.
Light reactions :)
they produce simple sugars
NADPH
Light dependent reactions are reactions the capture light energy and convert it into chemical energy(ATP). It occur in the chloroplast of plant cells Light independent reactions are reactions capture energy and use it to produce food . It does not need sunlight
1. Calvin cycle takes place in the stroma and light- dependent reactions take place in the granum, also light is not required for all the reactions of Calvin cycle.2. Calvin cycle assimilates CO2 to form organic compounds whereas in light reactions photolysis of water leads the formation of energy rich inorganic compounds.
light microscopes produce magnified images by focusing visible light rays.
It uses the energy that ATP and NADPH contain to build high energy compounds. It uses ATP and NADPH from light-dependent reactions to produce high energy sugars.
The synthesis by organisms of organic chemical compounds, especially carbohydrates, from carbon dioxide usingenergy obtained from light rather than from the oxidation of chemical compounds. Photosynthesis comprises twoseparate processes: the light reactions and the dark reactions. In higher plants; GREEN ALGAE; and CYANOBACTERIA; NADPH and ATP formed by the light reactions drive the dark reactions which result in thefixation of carbon dioxide.