it ivaporates then turns into rain!!! :::) <-------whoever wrote this had no idea what they were talking about.
hydrogen atoms are funneled through a transport protein on the thylakoid membrane called ATP synthase. this creates energy for the ADP molecules to become ATP, which assists in the formation of glucose in later reactions.
They make Adenosine-5'-triphosphate (ATP) which is a nucleoside triphosphate used in cells as a coenzyme.
Because Hydrogen ions are pumped into the inner thylakoid. There they accumulate. Osmotic potential within influences the ions to move to the only available exit, a facilitated diffusion protein, ATP synthase. The passing of the ions through this causes it to "spin" making enough energy to turn the attached ADP molecules into ATP.
Adenosine diphosphate, abbreviated ADP, is a nucleoside diphosphate.
Photosynthesis is CO2 + Water --> Oxygen and Glucose.
Hydrogen moves from the water molecules (H20) to the Glucose molecules (C6H12O6)
H+ is forming in the first step. they are useable for make NADPH.
They assist the cells in using photosynthesis to make food for itself
Photosynthesis II or PS II (photosystem II) comes before PS I. PSII uses a pair of P680 chlorophyll a, while PSI uses a pair of P700 chlorophyll a. These systems populate the thylakoid membrane.First, light hits PS II and excites its pigment molecules and the energy bounces off the pigment molecules until it gets to the P680 chlorophyll and excites its electrons which then causes it to give off an electron to the Primary electron acceptor.Now the pair of P680 is deprived of an electron, this is where water comes nto play. An enzyme catalyzes the splitting of water to produce O2 and two electrons, these electrons supply the ones that the pair of P680 chlorophyll gave away, this enables the P680 to be able to get excited again and again without being deprived of electrons.Back to the primary acceptor, the excited electron passes from PS II to PS I via the Electron Transport chain. This produces ATP.The electron then is at the P700 pair of chlorophyll a's of PS I which excites it and it gives off that electron to another primary electron acceptor which transports its electrons via ETC as well, but the final electron acceptor is NADP+, which with the electron becomes: NADPH.
Involve in photosynthesis to produce food.
Electrons provide the energy to be used in the electron transport chain which pumps H+ into the lumen, creating a concentration gradient. ATP is made when the H+ inside the lumen travel into the stroma through ATP synthase.
It is playing a roll on every animal. it is the way make food.
Electrons excited out of the reaction centre in the photosystems are carried along a chain. The electron transport chain pumps protons, just like the respiratory complexes, and the electrons are eventually dumped onto NADP to form NADPH. Protons flow back through ATP synthase, generating ATP.
The electron transport chain uses the high-energy electrons from the Krebs cycle to convert ADP into ATP
Chlorophyll is responsible for trapping the sunlight energy which is used to break down the water into hydrogen and oxygen
Yes water is made from one part Oxygen and two parts Hydrogen. If one were to mix pure Oxygen and Pure hydrogen in these proportions and then set a spark, there would be an explosion as the Hydrogen burned very rapidly to form steem. Such a mixture is very, very dangerous. This is the mixture introduced into the rocket engine to propel an Atlas Rocket. Please be warned do not play or experiment with hydrogen gas it is dangerous. You should also keep away form pure Oxygen as other materials catch fire and burn very easily and fiercely when the % of Oxygen (normally about 20%) in the air increases.
When there is too much CO2 it combines with H2O to make carbonic acid. It also disassociates into 3 hydrogen ions and this raises the pH in the blood.
they play a part in photosynthesis
Its essantial
It is playing the main roll. the main roll of photosynthesis as a pigment.
They assist the cells in using photosynthesis to make food for itself
grass you play on? thats all i can think of
Photosynthesis II or PS II (photosystem II) comes before PS I. PSII uses a pair of P680 chlorophyll a, while PSI uses a pair of P700 chlorophyll a. These systems populate the thylakoid membrane.First, light hits PS II and excites its pigment molecules and the energy bounces off the pigment molecules until it gets to the P680 chlorophyll and excites its electrons which then causes it to give off an electron to the Primary electron acceptor.Now the pair of P680 is deprived of an electron, this is where water comes nto play. An enzyme catalyzes the splitting of water to produce O2 and two electrons, these electrons supply the ones that the pair of P680 chlorophyll gave away, this enables the P680 to be able to get excited again and again without being deprived of electrons.Back to the primary acceptor, the excited electron passes from PS II to PS I via the Electron Transport chain. This produces ATP.The electron then is at the P700 pair of chlorophyll a's of PS I which excites it and it gives off that electron to another primary electron acceptor which transports its electrons via ETC as well, but the final electron acceptor is NADP+, which with the electron becomes: NADPH.
Causes the photolysis of water and enables the calvin cycle to occur or the light-dependent reaction of photosynthesis.