Water and carbon dioxide are the end products, plus energy. The energy is used to make ATP molecules and the carbon dioxide is released through the lungs.
Photosynthesis yeilds carbohydrate and O2.Respiration yeild ATP and CO2.
Glucose
glucose
Decomposition reaction - catabolism
Cellular respiration produces CO2 and water as by-products of the metabolic pathway.
Yes
The process of (aerobic) cellular respiration combines a carbohydrate with oxygen to release energy. This oxidation reaction is the "reverse" of photosynthesis.
The reactants of carbohydrate breakdown are carbohydrates (such as glucose) and oxygen. The products are carbon dioxide, water, and energy in the form of ATP through the process of cellular respiration.
Mitochondria are involved in catabolism, specifically in the process of cellular respiration where they break down glucose and other molecules to produce energy in the form of ATP.
The name of the carbohydrate molecule that the body breaks down during respiration is a SUGAR MOLECULE.
The purpose of carbohydrate catabolism is to break down complex carbohydrates into simpler sugars, primarily glucose, which can then be further oxidized to release energy. This process provides ATP (adenosine triphosphate), the main energy currency of the cell, essential for various biological functions. Additionally, it generates intermediates that can be used in other metabolic pathways, supporting cellular growth and maintenance. Overall, carbohydrate catabolism is crucial for energy production and metabolic balance in living organisms.
Photosynthesis yeilds carbohydrate and O2.Respiration yeild ATP and CO2.
The waste products of protein catabolism are ammonia and urea, which are eliminated in urine. For nucleic acid catabolism, the waste products are nitrogenous bases, phosphate, and sugar molecules, which are further broken down into uric acid or urea for excretion.
Glucose
"Most cheeses provide little, if any, carbohydrate" is a feature of dairy products of carbohydrate.
Goes from aerobic respiration of carbohydrate to anaerobic respiration of carbohydrate. In the case of marathon runners aerobic respiration of fatty acids will follow depletion of carbohydrate reserves (glycogen).
The carbohydrate in question is sugar.