In cellular respiration, the electron transport stage is when most adenosine triphosphate (ATP) is produced. Electron transport is the third stage in cellular respiration.
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Cellular respiration involves a series of complex reactions. The first phase of cellular respiration is glycolysis, which involves splitting glucose. This phase is carried out in several steps. The end result is the production of pyruvic acid. After pyruvic acid is produced, the Krebs cycle begins. The Krebs cycle, which is the second phase of cellular respiration, is sometimes referred to as the citric acid cycle. The Krebs cycle first produces citric acid, and it produces carbon dioxide as an end product. Electron transport is the last stage of aerobic respiration in cellular respiration. It results in the production of adenosine triphosphate, or ATP. ATP is a molecule that supports a variety of life functions. It is found in the nucleoplasm and cytoplasm of all cells, and helps organisms perform physiological functions. During anaerobic respiration, ATP is synthesized through glycolysis. In aerobic production, ATP is produced by mitochondria in addition to glycolysis. </span>
Fractals are infinitely complex patterns that are self-similar across different scales. They are created by repeating a simple process over and over in an ongoing feedback loop. The common fractal features are infinite intricacy, zoom symmetry, simple to complex, and fractional dimensions.
Example, the fern leaves arrangement provides a great illustration of fractal features. The entire fern is mostly built up from the same basic shape repeated over and over again at ever smaller scales. Fern leaf is neither a one nor two-dimensional shape, but hovers somewhere in between one and two dimension.
The two products that are put out in cellular respiration are oxygen and carbon dioxide.
1. homeostasis
2. negative feedback loop
3. the hypothalamus
4. the body’s optimal temperature, which is 37 degrees C, or 98.6 F
5. humans are endothermic, which means they don’t completely rely on their environment for heat, unlike ectothermic organisms such as reptiles. the diagram shows that the brain is in control of the body’s temperature, and that the body can raise its own temperature in its blood.
or something like that, hope this helped