It's called "Aerobic Metabolism"
It's called "Aerobic Metabolism"
It's called "Aerobic Metabolism"
yes, cellular respiration
cellular respiration
The process in which glucose and oxygen react in cells to release energy is called cellular respiration. It involves breaking down glucose molecules into carbon dioxide, water, and energy in the form of ATP (adenosine triphosphate).
Aerobic metabolism requires the use of oxygen. In this process, glucose is broken down in the presence of oxygen to produce ATP, the cell's energy currency. Aerobic metabolism is more efficient than anaerobic metabolism, which occurs in the absence of oxygen.
Anaerobic glycolysis is the stage of glucose metabolism that does not require oxygen to proceed. It involves breaking down glucose into pyruvate to produce ATP. This process is used by cells when oxygen levels are low, such as during intense exercise.
The body's metabolic process usually involves the oxidation of glucose. When the body cannot get enough oxygen to meet the demands for energy, cells begin using the anaerobic process (without oxygen). This process breaks down glucose and glycogen to lactic acid which then diffuses into the blood stream. The result of anaerobic metabolism can be seen in athletes who are rapidly using energy, at a faster rate than oxygen can be re-supplied to the muscles. Lactic acid build up impedes muscle functions, causing pain and sometimes nausea.
Glucose metabolism involves a series of processes that convert glucose into energy. In the presence of oxygen, glucose is broken down through glycolysis, the citric acid cycle, and oxidative phosphorylation to produce ATP. Without oxygen, glucose can be converted into lactate through anaerobic glycolysis.
Aerobic respiration. This process involves the breakdown of glucose molecules in the presence of oxygen to produce energy, carbon dioxide, and water in cells.
The chemical change of glucose and oxygen into energy is called fermentation.
When oxygen is present, yeast cells undergo aerobic respiration, which is a more efficient process that yields more ATP per glucose molecule. This results in a slower consumption rate of glucose compared to anaerobic respiration where glucose is broken down more quickly in the absence of oxygen to produce energy.