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Excited electrons are transferred to an electron transport chain.
It's photosystem II, in the electron transport chain of photosynthesis where light is used to create O2 and H.
Excited electrons are transferred to an electron transport chain.
Electron transport chain.
The energy of sunlight is used to power the endergonic reaction of combining NADP+ with H+
They go into photosystem I.
They go into photosystem I.
they move through an electron transport chain to photosystem 1
Photosystem's electron travel through the electron transport chain(etc) where ATP is produced and then back to the photosystem. In non-cyclic photophosphorylation, Photosystem II electron then is absorbed by photosystem I, photosystem I electron used to form NADPH and photosystem II gets its electron from photolysis of water. For you unfortunate children using Novanet: They move through an electron transport chain to photosystem 1.
Photosystem I
Excited electrons are transferred to an electron transport chain.
It's a pathway where electrons are transported from photosystem 2 to photosystem 1.
It's photosystem II, in the electron transport chain of photosynthesis where light is used to create O2 and H.
Light energy is not exactly trapped. The light energy excites the electron in the reaction centres of photosystem I and photosystem II. The electron excites and transfers to the electron transport chain ( chain of electron carriers), this produces ATP. Then the electron of photosystem II is transferred by photosystem I and the electron of the photosystem I is used with H+ and NADP to form NADPH. Photosystem II gets back an electron from photolysis of water.
Proteins that invovled in electron transport chain in mitochondria are good examples. There are four different protein complexes transfer the electron from the frist complex to the terminal protein. Photosynthesis, photosystem II and photosystem I does the same job.
true
Excited electrons are transferred to an electron transport chain.