Question

During the process of anaerobic respiration
A. A large quantity of $C{O_2}$ is evolved
B. The net gain in 8$$$$ATP molecules
C. At least one of the end product is organic
D. $NADH$is oxidized to $NA{D^ + }$ very vigorously

Answer 1

In anaerobic respiration, glucose breaks down without oxygen. The chemical reaction transfers energy from glucose to the cell, genuinely opposite to famous belief. The anaerobic respiratory produces lactic acid, as opposed to carbon dioxide and water, which in all fairness is big.

Complete answer:
a huge quantity of $C{O_2}$​ essentially is developed only within the case of aerobic breathing and the form of internet gain of $ATP$ in anaerobic respiratory ordinarily is 2$$$$ATP in a very large manner. Throughout essential fermentation, the $NADH$usually is oxidized to $NA{D^ + }$ very vigorously but it simply the reverse in the case of anaerobic respiration, essentially opposite to the famous notion. However, the give up fabricated from glycolysis for the maximum element is an organic compound (pyruvate) or after for all intents and purposes fermentation, it can turn out to be lactate or ethanol, which in particular is reasonably good sized.
By recycling $NA{D^ + }$ the process of glycolysis can continue as the $NA{D^ + }$ 'stock' has been replenished. The 2$$$$ATP molecules are much less than would be produced by aerobic respiration, it is necessary as without anaerobic respiration there would be no other method of $ATP$ production.
During the process of anaerobic respiration at least one of the end products is organic.

Hence, the correct answer is option (C).

Note: Anaerobic respiration specifically is the type of respiration through which cells can break down sugars to generate energy in the absence of oxygen in a generally major way. This is in contrast to the highly efficient process of aerobic respiration, which relies on oxygen to kind of produce energy, which is fairly significant.