Answer:
the could all die of carbon
Explanation:
The answer is heavy/dense
Answer:
For the energy to be released from the ATP molecule it must first take place that the bond holding the third phosphate molecule must be broken.
Explanation:
The ATP molecule is the one that provides energy with which living beings carry out their metabolic processes.
ATP has in its structure three phosphate molecules, each of them united by a high energy bond. When the hydrolysis of ATP occurs —releasing a phosphate molecule and leaving ADP— <u>energy is released by breaking the bond</u>. That energy is used by the cell to perform its functions.
The other options are not correct because:
- <em>The addition or gain of phosphate to the ADP is called phosphorylation, and it does not release energy.
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- <em>The separation of a phosphate molecule from ATP is sufficient to produce energy.</em>
This interaction process is an example of epigenesis.
Epigenesis is processes in which living organisms such as plants, animals and fungi grow from a seed, egg or spore through a series of steps in which cells differentiate and organs form. The theory of epigenesis which was created by C. F. Wolff claimed that structures emerge during development that are not initially formed.
