No, light is not necessary for cellular respiration.
Yes
ATP is common to both.
Carbon dioxide
No, it is required only in cellular respiration. Fermentation takes place in the absence of oxygen.
Cellular respiration and fermentation both produce ATP - which is a form of energy that cells can use.
C6H12O6 (glucose) is relevant to both of these processes, because... Glucose is the end product of photosynthesis. After generating ATP and NADPH from the "light reactions" in the electron transport chain, both these molecules (ATP and NADPH) go on to power the Calvin Cycle, or "dark reaction". The end product of the Calvin Cycle is a molecule of G3P, which is made into glucose. Cellular respiration is essentially the "inverse" of photosynthesis- where photosynthesis makes glucose, cellular respiration breaks it down into ATP, so that it might be used by the cell. There is aerobic and anaerobic cellular respiration, which occur differently, but the common goal of the two processes is to break down glucose. Glycolysis precedes cellular respiration itself, which is the actual process of breaking down the glucose molecules into pyruvate.
They do their duty and the plants do photosinthesis
ATP is common to both.
Carbon dioxide.
Carbon dioxide
Both produce ATP
No, it is required only in cellular respiration. Fermentation takes place in the absence of oxygen.
Cellular respiration and fermentation both produce ATP - which is a form of energy that cells can use.
Two common examples are photosynthesis and cellular respiration.
Metals rusting, wood or fuel burning, yeast fermenting sugar, and cellular respiration are common chemical reactions.
photosynthesis and cellular respiration can smd.
C6H12O6 (glucose) is relevant to both of these processes, because... Glucose is the end product of photosynthesis. After generating ATP and NADPH from the "light reactions" in the electron transport chain, both these molecules (ATP and NADPH) go on to power the Calvin Cycle, or "dark reaction". The end product of the Calvin Cycle is a molecule of G3P, which is made into glucose. Cellular respiration is essentially the "inverse" of photosynthesis- where photosynthesis makes glucose, cellular respiration breaks it down into ATP, so that it might be used by the cell. There is aerobic and anaerobic cellular respiration, which occur differently, but the common goal of the two processes is to break down glucose. Glycolysis precedes cellular respiration itself, which is the actual process of breaking down the glucose molecules into pyruvate.
Metals rusting, wood or fuel burning, yeast fermenting sugar, and cellular respiration are common chemical reactions.