Facuklitative anaerobes
In your muscle cells. In your case, the only fermentation your cells are going through is lactic acid fermentation (and not alcohol fermentation). Anaerobic respiration occurs in the absence of oxygen. If there is oxygen present, then your cells will go through aerobic respiration normally. However, there are times when your cells lack oxygen, as in intense exercise. When cells can do both aerobic and anaerobic respiration, it is called facultative respiration.
Aerobic Respiration pathway
No, ethanol is a byproduct of fermentation...not aerobic or anaerobic respiration
Generally all aerobic cells contain sugar to respire
sugar
In your muscle cells. In your case, the only fermentation your cells are going through is lactic acid fermentation (and not alcohol fermentation). Anaerobic respiration occurs in the absence of oxygen. If there is oxygen present, then your cells will go through aerobic respiration normally. However, there are times when your cells lack oxygen, as in intense exercise. When cells can do both aerobic and anaerobic respiration, it is called facultative respiration.
Aerobic Respiration pathway
No, ethanol is a byproduct of fermentation...not aerobic or anaerobic respiration
Generally all aerobic cells contain sugar to respire
sugar
Lactic acid fermentation occurs due to the lack of oxygen in the the muscle cells Aerobic respiration requires oxygen as an electron receiver to complete the electron transport system, so without it, the cells will be unable to undergo normal respiration and will resort to lactic acid fermentation
Fermentation in aerobic organisms usually occurs when there is not enough oxygen available for cellular respiration. This can happen during vigorous exercise, when the demand for oxygen exceeds the amount that can be supplied to the muscles. As a result, muscle cells revert to fermentation to generate energy, producing lactic acid as a byproduct. This process allows the cells to continue generating ATP, albeit at a lower efficiency compared to aerobic respiration.
To carry out aerobic respiration. That is to get energy
The mitochondria.
ATP or adenosine triphosphate provides the energy for the cells. Aerobic respiration is more efficient because it produces 32 ATP, while fermentation only produces 2 ATP.
foam reduces the heat transfer rate and aeration rate in any of the aerobic reactions as it is vital for cells to grow..
Mature red blood cells do not contain mitochondria so they are unable to carry out aerobic metabolism.