When the terminal phosphate linkage in an ATP molecule is broken using water, the energy released is equivalent to
Answers
Answer:
Explanation:
30.5 KJ/mol
Answer:
When the terminal phosphate linkage in an ATP molecule is broken using water, the energy released is equivalent to 30.5 KJ/mol.
Explanation:
ATP (adenosine triphosphate) is considered to be an energy-carrying molecule found in all cells. Because they release a considerable amount of energy when broken, the three phosphate groups in the ATP molecule are known as high-energy bonds. The energy generated during cellular respiration is utilized right away to make ATP, a molecule made up of ADP and inorganic phosphate. All other processes in the cell are powered by ATP wherein it is broken down, resulting in a fixed quantity of energy that can fuel the cell's endothermic reactions.
As a result, when the terminal phosphate bond in ATP is broken with water, 30.5 KJ/mol of energy is released.