Why do macromolecules differ in the amount of energy they contain? Different macromolecules have different chemical structures, and as a result, different amounts of energy are stored in their chemical bonds.
This results in different amounts of energy being stored in the macromolecules.
Why does the quantity of energy contained in different macromolecules vary so greatly? The chemical structures of each of these macromolecules, and the energy-storing links within them, are unique, and as a result, each one stores a unique amount of potential energy. … In the presence of oxygen, the process known as cellular respiration liberates energy from the food that the cell has consumed.
Why does the quantity of energy contained in different macromolecules vary so greatly? Different macromolecules have different chemical structures, and as a result, different amounts of energy are stored in their chemical bonds. This results in different amounts of energy being stored in the macromolecules.
During the process of cellular respiration, charge differences accumulate on opposite sides of the inner mitochondrial membrane. What impact does this have? The accumulation of H+ ions causes the membrane to burst, which results in an increase in the number of H+ ions that pass through the membrane.
In the same way that money is saved in a bank account, the body stores glucose in the form of ATP. ATP is drawn from storage and used whenever there is a need for energy in the body. When you use the ATP, it is the equivalent of taking money out of your bank account and spending the cash.
To get the nutrients and fuel necessary to carry out the processes of life, organisms must consume food.
A live entity goes through several different activities during its lifetime, including reproduction, circulation of blood, digestion, breathing, transportation, excretion, and nourishment. Energy and nutrients are required for the body to carry out all of its vital functions properly.
Every living thing need energy in order to develop, reproduce, keep its structures intact, and react to the circumstances in which they live. The term “metabolism” refers to the collection of life-sustaining chemical processes that allow organisms to convert the chemical energy that is stored in molecules into energy that may be utilised for the activities that occur inside cells.
Explain in a few simple steps how cells make use of calorie-dense molecules like glucose. One calorie is equal to the amount of energy required to raise the temperature of one gramme of water by one degree Celsius. In order to make use of molecules like glucose, cells must first break them down and then make use of the energy that is released.
A. What causes runners to have laboured breathing after a short sprint? They breathe so heavily because they have an oxygen deficit, which must be made up for before the lactic acid can be eliminated from the body.
To get the nutrients and fuel necessary to carry out the processes of life, organisms must consume food. A live creature goes through several different activities during its lifetime, some of which include reproduction, circulation of blood, breathing, digestion, transportation, and excretion. Energy and nutrients are required for the body to carry out all of its vital functions properly.
Because they are both electron carriers that can absorb electrons with high energies, transform them, and then employ them in electron transport chains, the roles that NAD+ and NADP+ play in the body are quite similar to one another.