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GLYCOLYSIS and KREBS CYCLE to the ETC where they release the electrons to the ETC and the energy is used to make a H+ concentration gradient used to power ATP Production. o 1 NADH makes 3 ATP, 1 FADH2 makes 2 ATP Step in Cellular Respiration Reactants Products (include #’s) Location Glycolysis Glucose, 2ATP, 2NAD+, 4ADP 2Pyruvic Acid, 2 ADP, Dec 04, 2015 · The electron transport chain uses the energy stored in high-energy electrons to pump H+ ions across the inner mitochondrial membrane. Why? It is this loss of energy that is then used to also pump in the hydrogen ions from the mitochondrial matrix to the inter membrane space. So we have all of these electrons being transported along these chain of electron carriers (hence it's called an electron transport chain) and all this energy being used to pump hydrogen ions in.
high-energy electrons removed from NADH and FADH 2 by proteins in the transport chain. (2) energy from the electrons used to pump hydrogen ions across the inner mitochondrial membrane. (3) hydrogen ions flow through ATP synthase; ATP is produced. (4) oxygen picks up electrons from the transport chain and hydrogen ions; water is produced and released.
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• Complexes I, III, and IV of the electron transport chain are proton pumps. • As electrons move energetically downhill, the complexes capture the released energy and use it to pump H + ions from the matrix to the intermembrane space. 5/27/2020 15 • This creates an electrochemical proton gradient across the inner mitochondrial membrane. Complete ionic equation for barium nitrate and potassium carbonate.
The energy stored from the process of respiration in reduced compounds (such as NADH and FADH) is used by the electron transport chain to pump protons into the inter membrane space, generating the electrochemical gradient over the inner mitochrondrial membrane.