They are not absorbing protons. They absorb only electrons.
Chlorophyll is a catalyst. It facilitates a chemical reaction known as photosynthesis, without being used up or changed by that reaction. Nothing happens to the chlorophyll. It is endlessly reusable.
If it were possible to add a proton to atoms, then the germanium would turn into arsenic.
Plants that are unlucky enough to loose all of their chlorophyll will not be able to produce glucose through photosynthesis and will die. This is happens if the entire plant looses chlorophyll; there are other examples of plants (such as white variegated ones) where only certain portions of the leaf have no chlorophyll, in these instances the food is produced and distributed from the areas that do contain chlorophyll to those which don't.
Photosynthesis begings
Uranium minus a proton (hydrogen atom) is protactinium.? That is, if you could get it to do that - this is an unusual reaction.
Light reaction is not produced by chlorophyll .
They convert in to two photons
Chlorophyll is a catalyst. It facilitates a chemical reaction known as photosynthesis, without being used up or changed by that reaction. Nothing happens to the chlorophyll. It is endlessly reusable.
The chloroplast contains chlorophyll and is located in the cytoplasm. Photosynthesis happens because of the chloroplast and the chlorophyll captures the energy from the sunlight.
I don know
If it were possible to add a proton to atoms, then the germanium would turn into arsenic.
Plants that are unlucky enough to loose all of their chlorophyll will not be able to produce glucose through photosynthesis and will die. This is happens if the entire plant looses chlorophyll; there are other examples of plants (such as white variegated ones) where only certain portions of the leaf have no chlorophyll, in these instances the food is produced and distributed from the areas that do contain chlorophyll to those which don't.
Photosynthesis begings
Uranium minus a proton (hydrogen atom) is protactinium.? That is, if you could get it to do that - this is an unusual reaction.
They head out of the sun at nearly the speed of light
It becomes excited.