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The electrons are transported through a series of carrier proteins via simultaneous oxidation-reduction reactions. The carriers harvest energy from these electrons to pump H+ ions across the inner mitochondrial membrane. When the electrons reach the very end of the chain i.e. complex 4, they are transferred to Oxygen atoms to form O2- ions. O2- ions then combine with H+ ions in the mitochondrial matrix to form H2O.
Glycolysis->Krebs Cycle->Electron Transfer
Oxygen on metals may have many different effects depending on the metal and what the oxygen is combined with. Oxygen combined with moisture on the metal of steel or iron will cause the metal to rust.
It is carbon that is combined with the oxygen in photosynthesis to make carbon dioxide (CO2).
Germanium is most commonly combined with silicon, oxygen and hydrogen
It clots.
Scandium (III) oxide
The electron movement causes H+ ions to be transported to the cystolic side of the mitochondrial membrane from the mitochondial matrix. This creates the electrochemical gradient that is used to generate chemical energy (ATP from ADP)
The electrons are transported through a series of carrier proteins via simultaneous oxidation-reduction reactions. The carriers harvest energy from these electrons to pump H+ ions across the inner mitochondrial membrane. When the electrons reach the very end of the chain i.e. complex 4, they are transferred to Oxygen atoms to form O2- ions. O2- ions then combine with H+ ions in the mitochondrial matrix to form H2O.
respiration, aerobic respiration(oxygen available) produces much more: C6H1206 + O2 = 6H20 + 6CO2 + 36ATP anaerobic respiration(no oxygen available) produces few: in animals it produces lactic acid and 2 ATP in plants it produces an alcohol, carbon dioxide and 2 ATP
Is this from Zingylearning? :) If it is, the answer is eating and inhaling oxygen.
Glycolysis->Krebs Cycle->Electron Transfer
Oxygen combined with one other element is an oxide.
it is combined with oxygen
YES, this happens when hydrogen burns. 2H2 + O2 ==> 2H2O
If you think to an alloy, this alloy is possible.
Pyruvate is broken down oxidized to CO2 in the mitochondria. The oxidation of pyruvate also reduces coenzymes NADH and FADH2. The electrons from these coenzymes are fed through the electron transport chain and eventually end up on oxygen creating water. The transport of electrons through the ETC pumps protons (H+) from the mitochondrial matrix to the inner membrane space. This creates a proton gradient that forces protons back through an integral membrane protein in the inner mitochondrial membrane called ATP Synthase. The rotation of ATP Synthase creates ATP from ADP and Pi.