Photosynthesis yeilds carbohydrate and O2.Respiration yeild ATP and CO2.
NO! It is not, it is an end product of cellular respiration.
The end result of photosynthesis is the ingrediants neccesary for cellular respiration, and vice versa. In other words: Photosynthesis 6H2O + 6CO2 = C6H12O6 + 6O2 Cellular Respiration C6H12O6 + 6O2 = 6H2O + 6CO2
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.
Cellular respiration requires a macromolecule to be broken down (usually glucose) and a final electron acceptor for the end of the electron transport chain (usually oxygen in most organisms). The reactants are a product of photosynthesis.
Aerobic respiration requires oxygen to produce energy and expels carbon dioxide. This ultimately depends on photosynthesis, because plants take the carbon dioxide out of the air and use it for photosynthesis, which expels oxygen into the air as waste.
Because the end products of photosynthesis (glucose and oxygen) are the requirement to start cellular respiration.
Because the end products of photosynthesis (glucose and oxygen) are the requirement to start cellular respiration.
NO! It is not, it is an end product of cellular respiration.
The end result of photosynthesis is the ingrediants neccesary for cellular respiration, and vice versa. In other words: Photosynthesis 6H2O + 6CO2 = C6H12O6 + 6O2 Cellular Respiration C6H12O6 + 6O2 = 6H2O + 6CO2
Photosynthesis' products are the same as the reactants of cellular respiration. In other words photosynthesis makes what cellular respiration uses.
The overall products of respiration are carbon dioxide and water. The overall products of photosynthesis are glucose and oxygen.
The two chemical reactions essentially form a cycle, in that the products of one reaction fuel the other. CO2 and H2O released from cellular respiration reenter the atmosphere and are recycled by photosynthetic organisms, which in turn produce the sugars and oxygen needed for respiration to occur once more. This is right! :) Follow me on twitter! @diamondiemeary twitter.com/diamondiemeary myspace.com/diemeary
Yes, the two are opposites of each other. Photosynthesis builds up complex sugars that have a lot of stored energy while cellular respiration breaks down these sugars, release the energy and store it in the form of ATP. The products and wastes of one process end up as the reactants for the other process.
the oxygen is released. Oxygen is produced during photosynthesis and released.
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.
Cellular respiration requires a macromolecule to be broken down (usually glucose) and a final electron acceptor for the end of the electron transport chain (usually oxygen in most organisms). The reactants are a product of photosynthesis.
Cellular respiration begins with the transportation of glycolysis into the mitochondria. The final step of cellular respiration will either be fermentation or an electron transport chain depending on whether it is anaerobic or aerobic respiration.