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It is the Reaction Center Complex as I assume you are doing the Campbell Biology Chapter 7 Reading Review.
I believe they are chlorophyll a molecules (P680 in Photosystem II and P700 in Photosystem I) Btw, the P680 and P700 refer to wavelength size that these moecules absorb. Hope this helps.
No, during the light reactions. Photolysis splits the water molecule at Photosystem II.
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They come from Photosystem ll. Photosystem ll gets them by ripping the electrons off of water by a process called photolysis. Electrons gain energy first in Photosystem ll, then later in photosystem l, through the absorption of energy from light.
Photosystem is composed of pigments, reaction center and electron acceptor
It is the Reaction Center Complex as I assume you are doing the Campbell Biology Chapter 7 Reading Review.
In a photosystem, an enzyme, known as the reaction center, is surrounded by proteins that enhance the absorption of light and transfer energy to it. The reaction center absorbs the light, which is comprised of photons, and then transfers the energy to one of two types of terminal electron acceptors.
It passes the energy to the reaction center ( a specialized region of photosystem) then the energized electrons leave the reaction centers and are passed to adjacent electron transport chains (ETC)
I believe they are chlorophyll a molecules (P680 in Photosystem II and P700 in Photosystem I) Btw, the P680 and P700 refer to wavelength size that these moecules absorb. Hope this helps.
In the thylakoid membrane a number of light-harvesting complexes and a reaction center complex. The chlorophyll a molecule at the reaction center of photosystem II is called P680. At the reaction center of photosystem I is a chlorophyll a molecule called P700.
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No, during the light reactions. Photolysis splits the water molecule at Photosystem II.
The difference between photosystem one and two is their type of light reaction.
The thylakoid membrane contains 2 photosytems, known as Photosystem I and Photosystem II. Together, they function to absorb light and transfer energy to electrons.
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