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When the bond is broken between what molecule is energy released from ATP?
When the bond is broken between the phosphate groups in ATP, energy is released.
What energy is stored in a molecule bond?
The energy stored in a molecule bond is potential energy. This energy is released when the bond is broken, and it is required to form the bond in the first place. The amount of energy stored in a bond depends on the type of bond and the atoms involved.
What is the relationship between the covalent bond order and the stability of a molecule?
The higher the covalent bond order in a molecule, the greater its stability. This is because higher bond orders indicate stronger bonds, which require more energy to break apart, making the molecule more stable.
How can one determine the bond order of a molecule?
To determine the bond order of a molecule, you can count the total number of bonds between the atoms and divide by 2. The bond order indicates the strength of the bond between the atoms in the molecule.
What is realtion between bond order and stability of molecule?
Generally, higher bond order indicates a more stable molecule. This is because higher bond orders result in stronger bonds, which require more energy to be broken. Therefore, molecules with higher bond orders tend to be more stable.
Where is energy located in a molecule?
Energy is located in the bonds between atoms in a molecule, specifically in the chemical bonds that hold the atoms together. When these bonds are broken or formed during a chemical reaction, energy is either released or absorbed.
When the bond is broken between what molecule is energy released from ATP?
When the bond is broken between the phosphate groups in ATP, energy is released.
Where are ATP high energy bonds located?
It is stored in phosphodiester bonds formed between alpha to gamma and beta to gamma.Please note that the bond between alpha to beta is not considered a high energy bond.
What energy is stored in a molecule bond?
The energy stored in a molecule bond is potential energy. This energy is released when the bond is broken, and it is required to form the bond in the first place. The amount of energy stored in a bond depends on the type of bond and the atoms involved.
What happens when two atoms absorb thermal energy when joining together to form a molecule?
When two atoms absorb thermal energy to form a molecule, their kinetic energy increases, leading to vibrations and rotations within the molecule. This can cause the bond between the atoms to stretch, bend, or twist, resulting in changes to the molecule's geometry or bond lengths. Ultimately, this can impact the molecule's stability, reactivity, and other properties.
How is energy releaded from ATP?
The bond between the third phosphate molecule and the second in the ATP molecule is broken down and energy is released. Because it is an exergonic reaction.
The energy available to the cell is stored in which part of the ATP molecule?
The energy available to the cell is stored in the form of a high-energy phosphate bond in the ATP molecule. This bond between the second and third phosphate groups is easily hydrolyzed to release energy for cellular processes.
What does bond energy mean?
Bond energy refers to the amount of energy needed to break a chemical bond between two atoms in a molecule. It is a measure of the strength of the bond and is usually expressed in units of kilojoules per mole (kJ/mol). Higher bond energy indicates a stronger bond that requires more energy to break.
What is released when chemicals bond is broken between the second and third phosphates of an ATP molecule?
energy is released
Where in the ATP molecule is the energy located?
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What is the relationship between the covalent bond order and the stability of a molecule?
The higher the covalent bond order in a molecule, the greater its stability. This is because higher bond orders indicate stronger bonds, which require more energy to break apart, making the molecule more stable.
How can one determine the bond order of a molecule?
To determine the bond order of a molecule, you can count the total number of bonds between the atoms and divide by 2. The bond order indicates the strength of the bond between the atoms in the molecule.
