The Oxygen molecule determines if the Pyruvic acid enters Krebs cycle or undergoes fermentation. If Oxygen is present, it enters the Krebs cycle, whereas in its absence, it undergoes fermentation.
Cellular respiration and fermentation are two different processes.
Cellular respiration and fermentation are both processes that involve the breakdown of glucose to generate energy, but they differ in the presence of oxygen. Cellular respiration occurs in the presence of oxygen and produces more ATP, while fermentation occurs in the absence of oxygen and produces less ATP. A Venn diagram could show these differences with two overlapping circles labeled “Cellular Respiration” and “Fermentation,” with key characteristics illustrated in each circle and the differences between them highlighted in the areas where the circles overlap.
During exercise, aerobic cellular respiration primarily takes place in the muscles, utilizing oxygen to produce energy. In the absence of sufficient oxygen, anaerobic fermentation occurs, leading to the production of lactate as a byproduct. This can result in muscle fatigue and soreness.
At the completion of the glycolic process, pyruvic acid is produced. Some of the pyruvic acid ends up in the cell mitochondria where cellular respiration takes place. In the absence of oxygen, the pyruvic acid goes through a process of fermentation, which takes place in the cytoplasm of the cell.
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!!!
for cellular respiration a process of oxidation takes place at some stage (aerobic) while in fermentation it is in abscence of oxygen(anaerobic)
Cellular respiration and fermentation are two different processes.
Correct. Anaerobic cellular respiration takes place in the cytoplasm and gives a net yield of 2 ATP molecules. Anaerobic respiration consists of glycolysis followed by either lactic acid fermentation or alcoholic fermentation.
Yes, oxygen is a common reactant in cellular respiration, specifically in aerobic respiration where it serves as the final electron acceptor in the electron transport chain. In contrast, fermentation does not require oxygen and occurs in the absence of it, utilizing alternative pathways to generate energy.
actually there are two types of cellular respiration:aerobic and anaerobic. aerobic cellular respiration only takes place when there is a presence of oxygen, while anaerobic or also called as fermentation takes place even w/out oxygen.
actually there are two types of cellular respiration:aerobic and anaerobic. aerobic cellular respiration only takes place when there is a presence of oxygen, while anaerobic or also called as fermentation takes place even w/out oxygen.
Cellular respiration and fermentation are both processes that involve the breakdown of glucose to generate energy, but they differ in the presence of oxygen. Cellular respiration occurs in the presence of oxygen and produces more ATP, while fermentation occurs in the absence of oxygen and produces less ATP. A Venn diagram could show these differences with two overlapping circles labeled “Cellular Respiration” and “Fermentation,” with key characteristics illustrated in each circle and the differences between them highlighted in the areas where the circles overlap.
During exercise, aerobic cellular respiration primarily takes place in the muscles, utilizing oxygen to produce energy. In the absence of sufficient oxygen, anaerobic fermentation occurs, leading to the production of lactate as a byproduct. This can result in muscle fatigue and soreness.
cellular respiration if there is enough oxygen. Lactic Acid fermentation if there is a lack of oxygen.
At the completion of the glycolic process, pyruvic acid is produced. Some of the pyruvic acid ends up in the cell mitochondria where cellular respiration takes place. In the absence of oxygen, the pyruvic acid goes through a process of fermentation, which takes place in the cytoplasm of the cell.
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!!!
Cellular respiration takes place in the mitochondria.