Energy must be added to a system to break a bond.
To break the bond between two atoms with a bond energy of 212 kJ, you will need to supply at least 212 kJ of energy to overcome the bond's strength. This can be done through processes like heating or chemical reactions that provide the necessary energy to break the bond.
water must be added and the process is called Hydrolysis
a hydrogen bond is a weak interaction involving a hydrogen atom and fluorine, oxygen, or nitrogen atom...... there for it must form, not break because it is a weak interaction!
In order for rotation to occur about a double bond, the π bond between the two partially overlapping p-orbitals must be broken. This requires breaking the π bond and rotation around one of the σ bonds in the molecule. Rotation about a double bond is typically restricted and occurs slowly, as it involves breaking and reforming the π bond.
If carbon atoms joined by double they can not rotate freely because it requires too much energy to break pi bond .
To break the bond between two atoms with a bond energy of 212 kJ, you will need to supply at least 212 kJ of energy to overcome the bond's strength. This can be done through processes like heating or chemical reactions that provide the necessary energy to break the bond.
455 kJ of energy must be added (if it’s wrong I’m sorry)
When a bond is formed, the same amount of energy is released as what was required to break the bond, so 436 kJ would be released when the bond is formed. This is due to the principle of energy conservation in chemical reactions.
water must be added and the process is called Hydrolysis
The bond between the second and third phosphate groups in ATP must break in order for energy to be released. This releases energy by breaking the high-energy bond and forming ADP (adenosine diphosphate) and inorganic phosphate.
Energy must be absorbed to break chemical bonds for a reaction to occur. This energy input is needed to overcome the bond's stability and allow new bonds to form in the reaction.
heat energy
a hydrogen bond is a weak interaction involving a hydrogen atom and fluorine, oxygen, or nitrogen atom...... there for it must form, not break because it is a weak interaction!
In order for rotation to occur about a double bond, the π bond between the two partially overlapping p-orbitals must be broken. This requires breaking the π bond and rotation around one of the σ bonds in the molecule. Rotation about a double bond is typically restricted and occurs slowly, as it involves breaking and reforming the π bond.
This is an ionic bond.
A covalent bond, (polar or non-polar)
If carbon atoms joined by double they can not rotate freely because it requires too much energy to break pi bond .