In the Electron Transport System
During the second stage of the aerobic respiration 6 carbons enter and 6 carbons depart.
Glycolysis, the first stage of aerobic respiration, occurs in a cell's cytoplasm. The second stage (acetyl-CoA formation and the Krebs cycle) and the third stage (electron transfer phosphorylation) occur inside a cell's mitochondria. They occur at the inner mitochondrial membrane, which is highly folded. Therefore, most of the reactions of aerobic cellular respiration occur inside the mitochondria of a cell.
Electron transport chain makes 32 or 34 ATP's.
Six carbons enter the second stage of aerobic respiration how many depart during the preparation steps and the cycle proper?
Glycolosis is the stage of respiration that all organisms perform.
The second stage of aerobic respiration is the link reaction. This transition reaction forms acetyl coenzyme A. Glycolysis, the Krebs (or citric acid) cycle, and electron transport chain and chemiosmosis also happen at this stage.
Aerobic - in the presence of oxygen Anaerobi
First step of both aerobic and non aerobic respiration is Glycolisis.It take place in cytoplasm
During the second stage of the aerobic respiration 6 carbons enter and 6 carbons depart.
36
In the mitochondrial matrix.
Glycolysis, the first stage of aerobic respiration, occurs in a cell's cytoplasm. The second stage (acetyl-CoA formation and the Krebs cycle) and the third stage (electron transfer phosphorylation) occur inside a cell's mitochondria. They occur at the inner mitochondrial membrane, which is highly folded. Therefore, most of the reactions of aerobic cellular respiration occur inside the mitochondria of a cell.
Electron transport chain makes 32 or 34 ATP's.
Six carbons enter the second stage of aerobic respiration how many depart during the preparation steps and the cycle proper?
Glycolosis is the stage of respiration that all organisms perform.
Aerobic cellular respiration requires oxygen. Therefore which ever process that requires Oxygen to make it occur is NOT a stage of aerobic cellular respiration.
The 'third and final stage' of aerobic respiration is called the electron transport chain - sometimes called : oxydation phosphorylation. 34 ATP form during that stage because 10 NADH and 2 FADH2 produced from other parts of Cellular Respiration are used in the 3rd stage. Each NADH produces 3 ATP, and each FADH2 produces 2 ATP. So, 30 ATP plus 4 ATP equal 34 ATP.