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What is the difference between photosynthesis in chloroplasts and cellular respiration in mitochondria?
Photosynthesis makes glucose molecules, but cellular respiration breaks them down.
What is Anabolic Respiration?
Anabolic respiration is the process through which complex molecules are synthesized from simpler molecules with the input of energy. This process typically involves the building up of macromolecules like proteins, fats, and carbohydrates to support growth, repair, and maintenance of the organism's cells and tissues.
Does cellular respiration use NADPH as its electron carrier?
No. Cellular respiration uses NADH as an electron carrier. NADPH is used in photosynthesis.
What is the process by which the chemical energy of food molecules is released?
The first step of the process is the digestion.
Is the process anabolic or catabolic of cellular respiration?
Catabolism is when the molecules are broken down and energy is released. Cellular respiration breaks down large molecules, like glucose, and store the energy in the form of ATP. Therefore, cellular respiration is catabolic.
Is the process of cellular respiration endergonic, catabolic, or anabolic?
Cellular respiration is a catabolic process.
What is the difference between photosynthesis in chloroplasts and cellular respiration in mitochondria?
Photosynthesis makes glucose molecules, but cellular respiration breaks them down.
What is Anabolic Respiration?
Anabolic respiration is the process through which complex molecules are synthesized from simpler molecules with the input of energy. This process typically involves the building up of macromolecules like proteins, fats, and carbohydrates to support growth, repair, and maintenance of the organism's cells and tissues.
Does cellular respiration use NADPH as its electron carrier?
No. Cellular respiration uses NADH as an electron carrier. NADPH is used in photosynthesis.
What is the process by which the chemical energy of food molecules is released?
The first step of the process is the digestion.
Is the process anabolic or catabolic of cellular respiration?
Catabolism is when the molecules are broken down and energy is released. Cellular respiration breaks down large molecules, like glucose, and store the energy in the form of ATP. Therefore, cellular respiration is catabolic.
Process made up of breathing and cellular respiration?
Cellular Respiration
Is cellular respiration a physical property?
Cellular respiration is a biochemical process.
If photosynthesis is the process that deposits in a savings account then what is cellular respiration?
Cellular respiration is the process that "withdraws" the energy.
What is the process that does the opposite to photosynthesis?
The process that is the opposite of photosynthesis is cellular respiration. In cellular respiration, organisms break down glucose to produce energy, carbon dioxide, and water. This process releases energy stored in glucose and is used by all living organisms to power their cellular functions.
Do humans carry out the process of cellular respiration?
Yes - cellular respiration is a process carried out in every living cell.
What are the difference between photosythisis and cellular respiration?
First of all, photosynthesis can only occur in plants. Animals are incapable of performing this process. Cellular respiration ,however, can occur in both plants and animals. Ironically, the two processes are alike in a special way: the formula for cellular respiration is the exact reverse of the formula for photosynthesis. See the 'Related Questions' link on this page for the formulas. Photosynthesis is an anabolic process, whereas cellular respiration is a catabolic process. In other words, photosynthesis involves the synthesis of organic compounds while cellular respiration involves the breakdown of organic compounds. Although photosynthesis is anabolic and cellular respiration is catabolic, both processes require an input of energy at various stages. For example, during the first stage of cellular respiration, glycolysis, an input of ATP (adenosine triphosphate) is required in order to breakup glucose into two pyruvate molecules. It is important to note that during glycolysis, 4 ATP are produced for every 2 ATP used, resulting in a net gain of 2 ATP.
