The word aerobic means to use oxygen while anaerobic doesn't need oxygen. The products of aerobic respiration are carbon dioxide and water and energy (ATP). The products of anaerobic respiration are oxygen and energy (ATP).
penut butter
Cellular respiration can be aerobic and anaerobic. Aerobic respiration requires oxygen, anaerobic respiration does not need oxygen.
how many total ATP's come out of aerobic and anaerobic respiration
Aerobic respiration: 1) Requires oxygen 2) Occurs in the mitochondria 3) Produces 38 molecules of ATP 4) Products are carbon dioxide and water in both yeast and humans 5) The glucose molecule is completely oxidised. Anaerobic respiration: 1) Doesn't requires oxygen 2) Occurs in the cytoplasm 3) Produces 2 molecules of ATP 4) Products are lactic acid in humans and carbon dioxide and ethanol in yeast 5) The glucose molecule is partially oxidised.
I suppose so, but the amount of energy released in anaerobic respiration is usually negligible compared to the energy released during aerobic respiration
During cellular respiration the Glucose is broken down. It may be in either of two processes- Aerobic respiration and anaerobic respiration. In Aerobic respiration there is break down of glucose in CO2 and H2O along with energy in presence of O2. This can be shown in following reaction C6H12O6 + O2 --------> CO2 + H2O + Energy And in anaerobic respiration glucose is broken down in any alcohol.
Running, for all humans, starts off as aerobic. But, if, during a run/jog/workout, your body cannot continue to complete aerobic respiration, running then becomes anaerobic (aerobic and anaerobic meaning with and without oxygen). So, if you push your body enough, you will reach anaerobic running. The point at which running goes from aerobic to anaerobic is the anaerobic threshold.
so they can breath :)
creatine phosphate, anaerobic cellular respiration, aerobic cellular respiration
Aerobic respiration is performing something with oxygen. Anaerobic is only performing the same action but without and oxygen.
True, aerobic respiration will result in a net gain of 36 ATP molecules once the entire process of cellular respiration has been completed. Even in anaerobic respiration there is still a release of 2 ATP molecules.
during glycolysis of the fermentation; remember that glycolysis is the common step for both aerobic and anaerobic respiration
No, sugars are broken down during aerobic respiration.