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It demands energy from ATP, which in turn creates energy for your body.
Biological oxidation of Glucose, Fatty acids and Glycerol, as well as extra Amine acids, creates the energy for generation of ATP.
Yes, they both create ATP. The difference is, cellular respiration creates 36 ATP molecules and fermentation only creates 2 ATP molecules.
Mitochondria generates most of the cell's energy in form of ATP.
Chemical energy creates ATP that allows muscle movement. Chemical energy is released in an chemical reaction that often causes heat.
It demands energy from ATP, which in turn creates energy for your body.
Biological oxidation of Glucose, Fatty acids and Glycerol, as well as extra Amine acids, creates the energy for generation of ATP.
Yes, they both create ATP. The difference is, cellular respiration creates 36 ATP molecules and fermentation only creates 2 ATP molecules.
Mitochondria generates most of the cell's energy in form of ATP.
The supply energy in the form of ATP
Chemical energy creates ATP that allows muscle movement. Chemical energy is released in an chemical reaction that often causes heat.
ATP (adenosine triphosphate), or ultimately it would be glucose.
The mitochondria in a cell basically creates energy (ATP) from nutrients absorbed through the cell membrane. This is the only organelle that supplies/ creates energy for the cell.
yes, this statement is correct.
Adenosine Triphosphate - Phosphocreatine It is one of three basic energy systems by which the human body creates energy.
glycolysis is how the mitochondria creates energy from glucose, it is the first step to creating ATP.
ATP Synthase