Question

How many ATP molecules are produced during three steps of aerobic respiration?

Answer 1

Hint: An ATP particle resembles a battery-powered battery: its energy can be utilized by the cell when it splits up into ADP (adenosine diphosphate) and phosphate, and afterward the "destroyed battery" ADP can be energized utilizing new energy to append another phosphate and remake ATP. The materials are recyclable, however review that energy isn't. ADP can be additionally decreased to AMP (adenosine monophosphate and phosphate, delivering extra energy. Likewise with ADP "energized" to ATP, AMP can be revived to ADP.

Complete Solution:
Cells breakdown glucose particles first during the cycle known as glycolysis. The glucose particle is separated into two pyruvate atoms and electrons are delivered. These electrons are gotten by ${NAD^+}$. When ${NAD^+}$ has gotten these electrons, it becomes NADH. Two ATP particles are additionally made (ATP moves compound energy between cells; it is similar to a para in such manner).
The following stage is the Krebs cycle, otherwise called the citrus extract cycle. During this progression of the cycle, the pyruvate atoms are changed over to Acetyl CoA, these particles are then separated significantly further, delivering electrons and ATP. As in the past advance, ${NAD^+}$ gets the delivered electrons, turning out to be NADH, as does FADH, which becomes ${FADH_2}$.
In conclusion, we have oxidative phosphorylation, which happens in the internal film of the mitochondria (or the cytoplasm of prokaryotic cells). At the point when ${NAD^+}$ and FADH got electrons already, they lost hydrogen particles.
These hydrogen molecules currently siphon against the fixation inclination. Proteins in the film go through a dynamic vehicle, moving the hydrogen particles into one concentrated zone. Next, the hydrogen particles experience ATP Synthase, which turns out a ton of ATP.
During electron transport, energy from NADH and ${FADH_2}$ is utilized to make a lot more atoms of ATP. In every one of the three phases of oxygen consuming breath, up to 38 particles of ATP might be delivered from a solitary atom of glucose.

Note:
Oxygen consuming breath gives energy to the living beings to play out all the basic elements of life. That is the reason vigorous breath is significant.