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The percent transmittance grew to steadily higher numbers as the experiment progressed because the light reaction was able to occur. However, the dark cuvettes had stable levels of transmittance because light is necessary to excite electrons, which, in turn, reduces the DPIP.
In aerobic respiration, 36 or 38 molecules of ATP per molecule of glucose, depending on how many are gained through the electron transfer system.In anaerobic respiration 2 molecules of ATP per molecule of glucose, though higher yields can occur in higher temperatures (as much as 9 ATP molecules per molecule of glucose)
Aerobic break down of glucose occurs in the presence of oxygen while oxygen is limited during the anaerobic process. Both processes lead to production of energy although aerobic breakdown releases a higher amount of energy than the anaerobic breakdown.
I believe, from the Biozone, that it compensates by spending much more energy on producing thicker leaves which allows it to absorb higher light intensities.
When the blood goes around the body, the red blood cells have to unload all these oxygen molecules at places where they are needed, such as at muscle cells carrying out respiration. In the lungs, there's a high concentration of oxygen, relatively low temperature, and less acidic. In such a condition, a red blood cell automatically absorbs oxygen. In the tissues, where respiration is carried out, it's relatively warmer, lower in oxygen concentration and is likely to be more acidic due to a higher concentration of carbon dioxide. Here, the cell is more likely to lose the oxygen. Without any oxygen molecules in the cell, it appears dull red. The pigment inside the cell is now called deoxyhaemoglobin. And the cell is quickly transported back to the lungs to be reloaded with oxygen.
The percent transmittance grew to steadily higher numbers as the experiment progressed because the light reaction was able to occur. However, the dark cuvettes had stable levels of transmittance because light is necessary to excite electrons, which, in turn, reduces the DPIP.
When a quick burst of en is needed and oxygen is in limited supply
The electron transport generates the most ATP in the aerobic respiration. Higher organisms, such as reptiles, mammals, and birds, require a tremendous amount of ATP to function; therefore, the cells of higher organisms most frequently use aerobic respiration.
The lower transmittance of film would indicate a higher Optical Density (OD), or absorption, because as concentration increases, % transmittance will decrease. This is because of Beer's Law (A = 2.00 -[log (%T)]). As you can see from the equation, transmittance is directly proportional to the outcome of absorption. High %T = Lower Absorption.Low %T = Higher Absorption.
Aerobic means "with oxygen" and anaerobic means "without oxygen." Cells produce energy at a might higher and faster rate with oxygen than without.
genetically males have a higher VO2 max that females because males have a greater muscle mass that females. Mitochondria are the site of cellular respiration and the majority of them are located within muscle tissues in the body. If there are more sites for cellular respiration than the body will be able to keep at an aerobic level of fitness for longer because the body can remove a higher volume of oxygen from the bloodstream. This would cause a person to maintain a longer state of aerobic respiration and therefore have a higher VO2 max.
All "higher" animals, including snow leopards use oxygen for respiration and are therefore aerobic. Anaerobic organisms do not require oxygen in their metabolism and for some oxygen is poisonous. Anaerobes are essentially what we would regard as primitive organisms such as some bacteria and yeasts.
The zebra fish will have a higher respiration rate
In aerobic respiration, 36 or 38 molecules of ATP per molecule of glucose, depending on how many are gained through the electron transfer system.In anaerobic respiration 2 molecules of ATP per molecule of glucose, though higher yields can occur in higher temperatures (as much as 9 ATP molecules per molecule of glucose)
Animals require higher rate of respiration as they move from one place to another and therefore they need more energy. There the rate of respiration in animals is than in plants. They require more enrgy.
The latter
No, it is not.