Explanation:
The kinetic energy in the glucose is stored as potential energy in the ATP and released as kinetic energy when the molecule moves across the cell membrane.
This chemical energy is stored within the molecule ATP, as kinetic energy within a high-energy phosphate bond, through the phosphorylation of ADP and Pi.
Further Explanation:
In all eukaryotic cells mitochondria are small cellular organelles bound by membranes, these make most of the chemical energy required for powering the biochemical reactions within the cell. This chemical energy is stored within the molecule ATP, as kinetic energy within a phosphate bond through the phosphorylation of ADP. Respiration in the mitochondria utilizes oxygen for the production of ATP in the Krebs’ or Citric acid cycle via the oxidization of pyruvate( through the process of glycolysis in the cytoplasm).
During respiration, the breakdown of glucose undergoes several steps in order to produce ATP, namely in glycolysis, the Kreb's cycle and oxidative phosphorylation.
overall: C6H12O6 (glucose) + 6 O2 → 6 CO2 + 6 H2O + ≈38 ATP
Active transport utilizes ATP in order to move molecules against their concentration gradient. At the site of membrane protein transport, the phosphate bond in ATP is split, releasing kinetic energy, and the protein undergoes a conformational change moving the molecule into the cell.
Learn more about cellular life at brainly.com/question/11259903
Learn more about cellular respiration at brainly.com/question/11203046
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