They are the same
Greater the bond strength, greater is the bond dissociation energy. (So they are proportional to each other).
The strength of the bond increases as the bond dissociation energy increases.
Polarity is related to bond strength because the bigger the difference in electronegativity, the higher the bond energy will be. This will then give rise to a much stronger bond.
The bond dissociation constant is inversely correlated with the strength of the bond: Strong bonds dissociate slightly, weak bonds dissociate more thoroughly.
The strength of a chemical bond is equivalent to the energy that is released when that bond is formed, and that is called the heat of formation. It is measured in calories per mole.
The strength of a chemical bond is equivalent to the energy that is released when that bond is formed, and that is called the heat of formation. It is measured in calories per mole.
That this bond is strong and needs a higher influx of energy to have disassociation happen.
If the bond dissociation energy for reactants is high then activation energy required for the reaction also will be high.
One can think of the kinetic energy of a particular electron of an atom as an inverse function of its confinement. In other words, it is a lower energy state for an electron to be de-localized over a larger area. By forming a bond, an electron essentially occupies twice as much space as it did previously. This is lower energy.
When discussing bond strength, the discussion centers around the amount of energy required to break the bonds, not maintain them. Weak bonds have higher negative potential energy then strong bonds.
lattice energy
The more lattice energy there is, the more the ionic bond attracts electrons from other atoms forming new compounds.