mitochondria
ATP is formed in aerobic respiration. 36/38 ATP's formed from the whole process.
Most of the ATP synthesized in muscle cells during aerobic exercise comes from the process of oxidative phosphorylation in the mitochondria. This process involves the electron transport chain and ATP synthase, which generate ATP using energy derived from the oxidation of nutrients.
"The main function of mitochondria in aerobic cells is the production of energy by synthesis of ATP. However, mitochondria also have many other functions, including e.g.:Processing and storage of calcium ions (Ca2+).Apoptosis, i.e. the process of programmed cell deathRegulation of cellular metabolismSynthesis of certain steroids"http://www.ivy-rose.co.uk/Biology/Organelles/Organelle-Functions.php
aerobic(36 ATP)
Most cells make most of their ATP via a process called cellular respiration, specifically through the aerobic pathway which involves the citric acid cycle and oxidative phosphorylation in the mitochondria.
Human cells get most of the energy they need from the process of aerobic cellular respiration which occurs in the mitochondria. Aerobic cellular respiration produces about 34 molecules of ATP.
38 ATP, co2 and h2o
Aerobic respiration liberates the most energy in the form of ATP compared to other cellular processes like anaerobic respiration and fermentation.
By the process of respiration. In this process, glucose is oxidised to carbon dioxide and water (aerobic) and ATP is produced. (ATP is the energy currency of cells)
Cells transfer energy from organic compounds to ATP (adenosine triphosphate) in the process of aerobic respiration. ATP is the main energy currency of the cell and is used to power various cellular functions and processes.
The process that provides the most ATP for a muscle is aerobic respiration.
Most of the ATP is generated during cellular respiration, specifically in the electron transport chain stage. This process occurs in the mitochondria of eukaryotic cells and involves the transfer of electrons along a series of protein complexes to generate ATP through ATP synthase.