The three end products of aerobic respiration are carbon dioxide, water and energy in the form of adenosine triphosphate, or ATP, according to the BBC. Aerobic respiration is a chemical process where the body takes in food substances and converts it into energy that can be used by the body. Aerobic respiration requires one crucial molecule: oxygen.
The entire chemical conversion process happens entirely in the mitochondrial cells. Aerobic respiration involves four different processes: glycolysis, formation of the acetyl coenzyme A, which is an intermediate, the citric acid cycle and chemiosmosis paired with movement across the electron transport chain.
The main goal of aerobic respiration to produce energy that can be used by the body, and these processes are extremely effective. Aerobic respiration produces a net gain of 36 ATP molecules with 252 kcal stored as total free energy in the phosphate bonds. To do this, aerobic respiration will take in a molecule of glucose, six molecules of oxygen, six molecules of hydrogen dioxide, 38 molecules of adenosine diphosphate, or ADP, and 38 phosphorous molecules, and converts it to six carbon dioxide molecules, 12 hydrogen dioxide molecules, 38 ATP molecules and 420 kcal. The extra energy is stored in the extra phosphate bond found in ATP, which has three phosphorous molecules, rather than ADP, which only has two.Learn More
Cellular respiration products are water, carbon dioxide, heat and adenosine triphosphate or ATP. This applies to aerobic respiration. For anaerobic respiration, cellular respiration products are alcohol or lactic acid, carbon dioxide and ATP.Full Answer >
In animals, such as humans, the waste products of aerobic respiration are water and carbon dioxide, and the waste product of anaerobic respiration is lactic acid. Aerobic respiration is a series of reactions that sees oxygen being consumed in order to release energy from glucose. Anaerobic respiration occurs when there is an oxygen debt in cells.Full Answer >
Respiration is important because it produces energy that is essential for the normal functioning of the body. Respiration provides cells with oxygen and expels toxic carbon dioxide. The BBC notes that cells need energy for movement, multiplication, the synthesis of essential molecules and maintaining body temperature.Full Answer >
A high fever can cause a denaturation, or change in shape, of an enzyme, resulting in less activity for the enzyme to catalyze reactions in the body, according to the BBC. When there is elevated temperature in the body, the enzymes cannot carry out normal functions. The enzyme's activity gradually increases with a rise in temperature up to the limit of body temperature, and then diminishes at higher temperatures.Full Answer >