it's the stage that involves light absorbing pigments such as chlorophyll and produces oxygen by the photolysis of water. An electron transport chain produces NADPH directly, and ATP indirectly through a proton gradient that it sets up as happens in mitochondria.
Light reaction in thylakoids.Dark reaction in stroma.
light reactions stage
The light reactions stage.
oxygen and carbon dioxide
Calvin Cycle
During the Light Independent Stage or second stage of photosynthesis.
cell wall
In the Calvin cycle
The first stage of photosynthesis is the light dependent reactions. During this stage, photons excite the electrons that move through Photosystem I, Photosystem II, and the Electron Transport Chain to produce ATP and NADPH. The ATP and NADPH produced in this first step are then used later during the Calvin Cycle.
photosynthesis is the growing stage of a plant and respiration is the human bodys breathing system i hope this answer is okay
Chlorophyll is actually a catalyst, an enzyme that facilitates the chemical reaction but is not changed by the reaction. When writing the photosynthesis equation out, the word 'chlorophyll' is often written over the "yields" arrow to indicate "in the presence of chlorophyll yields".
NADPH ans ATP formed in light reactions are used in the second stage of dark reactions.Carbondioxide from the air is the main reactant of photosynthesis.
During the Light Independent Stage or second stage of photosynthesis.
Atp is one of them.
cell wall
Phytosis
The splitting of water in stage 1.
in chloroplast
no light energy is not charged to stage 1 of photosynthesis because in photosynthesis you have to be able to go throw the energy to be able to produce heat into the solar panel duh
The first stage of photosynthesis is wherein water is necessary. Water is photochemically split into oxygen, electrons and hydrogen ions together with light reaction.
In the chloroplast, the thylakoid membranes are the sites of the light reactions, whereas the Calvin cycle occurs in the stoma. The light reactions use solar energy to create ATP and NADPH, which supply chemical energy and reducing power, respectively, to the Calvin cycle. The Calvin cycle incorporates CO2 into organic molecules, which are converted to sugar.
no