These two reactions are:
1. Light reaction or Hill Reaction- in which the photolysis of water takes place to form energy rich compounds like NADPH2 & ATP and O2 is liberated from water.
2. Dark reaction or Blackman reaction- in which the CO2 is assimilated to form carbohydrates by utilizing the energy from the compounds of Hill reaction.
It can also be called photosynthesis in the light-dependent stage and light-independent stage (dark stage).
In cellular respiration, glucose is broken down to produce ATP, with oxygen used as the final electron acceptor in the electron transport chain. In photosynthesis, carbon dioxide and water are converted into glucose and oxygen with the help of sunlight, in a process that involves the Calvin cycle and the light reactions in the chloroplasts.
In the context of photosynthesis, different colored bands observed during chromatography represent the various pigments present in plant leaves, each with distinct absorption properties. For example, chlorophyll a appears green, chlorophyll b is a lighter green, and carotenoids, which are yellow to orange, absorb light in different wavelengths. The separation of these pigments in different solvents allows for the visualization of their roles in capturing light energy during photosynthesis. Each pigment contributes to the overall efficiency of the photosynthetic process by absorbing specific light wavelengths.
Probable "each reaction" is each reactant; coefficients are used.
A different enzyme controls each step of a metabolic pathway. This ensures that each chemical reaction in the pathway is tightly regulated and allows for efficient energy usage and production.
Water carbon nitrogen
The ratio is different for each type of reaction.
curiosity
They are opposite to each other .
No. Each reaction will generally have different elements.
In cellular respiration, glucose is broken down to produce ATP, with oxygen used as the final electron acceptor in the electron transport chain. In photosynthesis, carbon dioxide and water are converted into glucose and oxygen with the help of sunlight, in a process that involves the Calvin cycle and the light reactions in the chloroplasts.
In the first step of photosynthesis, which is light-dependent, two water molecules are needed to start the reaction. Each water molecule contains two oxygen atoms, so a total of four oxygen atoms are needed.
People have different reaction times because everyone is a little unique. Each personÕs brain is wired differently, which affects their movement.
Action and reaction forces do not cancel each other out because they act on different objects. According to Newton's third law of motion, for every action, there is an equal and opposite reaction. These forces may have the same magnitude, but they act in opposite directions on two different objects, so they do not cancel each other out.
In the context of photosynthesis, different colored bands observed during chromatography represent the various pigments present in plant leaves, each with distinct absorption properties. For example, chlorophyll a appears green, chlorophyll b is a lighter green, and carotenoids, which are yellow to orange, absorb light in different wavelengths. The separation of these pigments in different solvents allows for the visualization of their roles in capturing light energy during photosynthesis. Each pigment contributes to the overall efficiency of the photosynthetic process by absorbing specific light wavelengths.
Different amounts of each element are required to react with the same amount of hydrogen because each element has a different molar mass and reacts in different stoichiometric ratios. The stoichiometry of the reaction depends on the balanced chemical equation for the reaction, which determines the number of moles of each reactant needed to fully react with the given amount of hydrogen.
all gods are different, each with a different personality,
Probable "each reaction" is each reactant; coefficients are used.