It splits the water molecules into Hyrodgen and Oxygen.
Yes, chlorophyll is energized in photosynthesis. When chlorophyll absorbs light energy, it becomes excited and enters an energized state. This energized chlorophyll is then able to transfer the absorbed energy to other molecules involved in the process of photosynthesis, which ultimately leads to the conversion of light energy into chemical energy.
The initial stage of [[photosynthesis in [[chlorophyll Molecules where the presence of [[light Energy raises the energy. It is the first event int he first phase of photosynthesis which is light-dependent reactions.it happens at the thykaloid. Chlorophyll molecules capture light energy and becomes energized electrons(e-).
Clorophyll collects the light energy that is used to fuel and start the chemical reactions for photosynthesis.
photosystems
Photosynthesis consists of light-dependent reactions and light-independent reactions. These light reactions occur within the chloroplast thylakoids, where the aforementioned chlorophyll pigments are found.
The pigment directly involved is the green pigment called 'chlorophyll' and is found in the chloroplats.
The reaction that requires chlorophyll is called photosynthesis. The chlorophyll is used as a catalyst to convert carbon dioxide and water into carbohydrates and excess oxygen, using sunlight. Without photosynthesis, life as we know it would not exist, because there would be no oxygen in the atmosphere.
Chlorophyll is NOT really a catalyst. The presence of chlorophyll in the absence of light does not catalyze photosynthesis. Chlorophyll plays a part in photosynthesis, it captures light energy.
The carbon fixing reactions that occur in photosynthesis is called the anaplerotic reaction. In most cases, the carbon fixing reactions usually occurs in the marine environments.
Chlorophyll is NOT really a catalyst. The presence of chlorophyll in the absence of light does not catalyze photosynthesis. Chlorophyll plays a part in photosynthesis, it captures light energy.
The light-dependent reactions, or light reactions, are the first stage of photosynthesis. In this process light energy is converted into chemical energy, in the form of the energy-carriers ATP and NADPH. In the light-independent reactions, the formed NADPH and ATP drive the reduction of CO2 to more useful organic compounds, such as glucose.
Chlorophyll is the pigment needed in order to undergo photosynthesis. Chlorophyll is what absorbs the light.