Want this question answered?
When the body produces lactic acid because it doesn't have enough oxygen this makes a muscle sore.
The product obtained during cellular anaerobic respiration human muscle cell water, energy and carbon dioxide.
creatine phosphate, anaerobic cellular respiration, aerobic cellular respiration
Hello
Aerobic cellular respiration produces energy for muscle contraction but this is not what causes the contractions. The binding properties between the proteins actin and myosin are what give muscles the ability to contract.
creatine phosphate, anerobic cellular respiration, and areobic cellular respiration all produce ATP.
of course the lungs and the diaphragm the muscle that controls breathing.The lungs, and skin (cellular respiration)
Cellular Respiration
The mitochondria is the main site for cellular respiration, but just looking at the mitochondria won't work because part of cellular respiration takes place in the cytoplasm outside of the mitochondria.
No. Homeostasis in respiration is controlled by gas exchange and regulation of blood pH. Gas exchange is performed by the lungs by eliminating carbon dioxide, a waste product given off by cellular respiration. As carbon dioxide exits the body, oxygen needed for cellular respiration enters the body through the lungs. ATP, produced by cellular respiration, provides the energy for the body to perform many functions, including nerve conduction and muscle contraction. Lack of oxygen affects brain function, sense of judgment, and a host of other problems.
When muscles are active they quickly exceed their oxygen supply. When this occurs they can no longer run aerobic respiration so the muscle begins to produce lactic acid as a byproduct of anaerobic respiration. When lactic acid builds up it irritates nerve receptors and results in the feeling of soreness.
Fueled by the metabolism of sugar, the ATP byproducts (ADP) are reconstituted into ATP molecules. Use of ATP energy requires no oxygen - when the ATP is depleted the muscle cells must use cellular respiration to obtain energy and once the muscle is at rest the ATP stores are replenished.