Answer:
The term is referred to as "excess post-exercise oxygen consumption"
Explanation:
When the body demands more oxygen than when it is resting caused by an activity, in this case, exercise, It results in excess post-exercise oxygen consumption. The body depletes oxygen faster during exercise producing carbon dioxide. So the body needs an intervention following strenuous activity intended to erase the body's oxygen deficit by taking in more oxygen to complement the initial loss. Lactic acid builds up in the body after the exercise, so oxygen recovery would oxidize the lactic acid.
At rest, tissues consume less oxygen compared to when exercising. Exercise initiate calorie depletion. There is also a high demand for oxygen by the body during exercise to fuel it, so excess post-exercise oxygen consumption increases the ability of the body to take up oxygen so as to make up for the one lost by returning the oxygen level in the body to the level it was when the body was at rest.
Tympanometry, a cochlear implant, Toni merry
Answer:
The correct answer will be option D-all of the above.
Explanation:
Neuroglia or glial cells are the additional cells of the nervous system which perform functions which maintains the neuron cells. They protect, support and nourish the neurons which are present in both CNS and PNS.
In CNS four types of glial cells are found namely:
1. Astrocytes- support and nourish the neurons.
2. Microglial cells- become macrophages which clean neuronal debris.
3. Ependymal cells- help circulation of cerebrospinal fluid which maintains neurons in their place.
4. Oligodendrocytes- form the myelin sheath.
In PNS two types of glial cells are present:
1. Schwann cells- form myelin sheath and perform the function of macrophages.
2. Satellite cells- support and nourish.
Therefore, glial cells perform all the functions thus, option D is the correct answer.
Answer:
How to Control Diabetes Type 2?
Type 2 means that your body doesn't use insulin properly. And while some people can control their blood sugar levels with healthy eating and exercise, others may need medication or insulin to manage it.
Answer: C.Change in hydrogen ions disrupts the electrostatic interactions within the enzyme molecule.
D.The enzyme may denature.
Explanation:
The salivary amylase is the enzyme which break starch into simple sugars. The enzyme salivary amylase is secreted in the saliva of humans and animals. This enzyme works at an optimum pH of 5.2-7.0 but when the enzyme is taken along with food into the stomach the enzyme becomes non-functional. The pH of stomach is acidic that is 1.5-1.6, the hydrogen ions in the stomach neutralize the negative charge on the R group of the enzyme this disrupts the ionic interaction property of the enzyme salivary amylase. The acidic pH will denature the enzyme which may cause the change in the active site of the enzyme and the enzyme will become non-functional.
