Electron Transport Chain
electron transport chain
Electrons from the Krebs cycle to convert ADP into ATP.
Electron transportchain
Photochemical energy is transformed into biochemical energy.
They begin to electrolyze, a term used for giving off static charge.
Hi, this is because it depends on which electron transporter from the Krebs cycle, NADH or FADH2 delivers electrons to the electron transport chain. Each NADH will generate 3 ATP in the electron transport chain while FADH2 will only deliver 2 ATP per molecule. This is so because FADH2 drops off the electrons in the mitochondria at a lower energy level (they enter later in the chain) than do NADH. Hope this helps. Read more: Why_does_the_ATP_formed_during_the_oxidative_phosphorylation_phase_of_cellular_respiration_vary_between_32_and_34_ATP
The high-energy electrons that are passed to the electron transport chain combine with O2 and H+ ions. This results to the formation of water molecules.
High-energy electrons from NADH and FADH2 are passed along the electron transport chain
Electrons from the Krebs cycle to convert ADP into ATP.
Yes, along something that is called 'the electron chain'.
Electron transportchain
Photochemical energy is transformed into biochemical energy.
They begin to electrolyze, a term used for giving off static charge.
Hi, this is because it depends on which electron transporter from the Krebs cycle, NADH or FADH2 delivers electrons to the electron transport chain. Each NADH will generate 3 ATP in the electron transport chain while FADH2 will only deliver 2 ATP per molecule. This is so because FADH2 drops off the electrons in the mitochondria at a lower energy level (they enter later in the chain) than do NADH. Hope this helps. Read more: Why_does_the_ATP_formed_during_the_oxidative_phosphorylation_phase_of_cellular_respiration_vary_between_32_and_34_ATP
Transport chain series of proteins embedded in a membrane along which energized electrons are transported as electrons are passed from molecule energy is released?
The step in aerobic respiration that generates the most hydrogen is the electron transport chain. This is where electrons from NADH and FADH2 are passed along a series of protein complexes, leading to the generation of a high concentration of hydrogen ions (H+) which combine with oxygen to form water.
I think you are looking for the answer 'electrons', but this is a very simplistic way of thinking of conduction. In a solid conductor such as a metal there are delocalised electrons which move in an electric field. They are not passed from particle to particle.
I think you are looking for the answer 'electrons', but this is a very simplistic way of thinking of conduction. In a solid conductor such as a metal there are delocalised electrons which move in an electric field. They are not passed from particle to particle.