fermentation follows glycolysis, glycolysis will use 2ATP to produce 4ATP; Fermentation only aids in the process by producing NAD+ which is needed by glycolysis to produce ATP
Fermentation is used in anaerobic respiration. Fermentation is done to replenish NAD supplies so that glycolysis can continue making ATP in the absence of oxygen.
Aerobis respiration produces 36 ATP, while glycolysis and anaerobic only produce 2.
like respiration, fermentation begins in the cytoplasm. Again, as the glucose molecules are broken down, energy is released. But the simple molecules from the break down of glu- cose do not move into the mitochondria!!!
No mitochondrion breaks down food molecules in the absence of oxygen. In the absence of oxygen, glycolysis followed by fermentation occurs in the cytoplasm.
Cellular respiration uses one molecule of glucose to produce what?
Cellular respiration and fermentation both produce ATP - which is a form of energy that cells can use.
34 molecules
No.
Fermentation is used in anaerobic respiration. Fermentation is done to replenish NAD supplies so that glycolysis can continue making ATP in the absence of oxygen.
Cellular Respiration
Cellular respiration is the process by which cells produce ATP for energy. Also, cellular respiration is much more efficient than fermentation, the process by which single celled organisms. (Cellular respiration produces 18 times more ATP than fermentation) Essentially, without cellular respiration is what keeps the cells in your body functioning.
Fueled by the metabolism of sugar, the ATP byproducts (ADP) are reconstituted into ATP molecules. Use of ATP energy requires no oxygen - when the ATP is depleted the muscle cells must use cellular respiration to obtain energy and once the muscle is at rest the ATP stores are replenished.
Aerobis respiration produces 36 ATP, while glycolysis and anaerobic only produce 2.
like respiration, fermentation begins in the cytoplasm. Again, as the glucose molecules are broken down, energy is released. But the simple molecules from the break down of glu- cose do not move into the mitochondria!!!
38 ATP molecules
Without oxygen, pyruvic acids are not metabolized by cellular respiration but undergo fermentation. They are not transported into the mitochondria, but remain in the cytoplasm, where they are converted to waste products that may be removed from the cell.NADH is oxidized by the electron transport chain in respiration only.
The ultimate function of cellular respiration is to create ATP molecules which can be broken to produce energy for cellular activities.