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.
That this bond is strong and needs a higher influx of energy to have disassociation happen.
remember dissociation energy is the energy required to break a bond between to covalently bonded atoms. dissociation energy corresponds to the strength of a covalent bond. carbon compounds however have very high dissociation energy meaning it would be harder to break the bond between them than it is for a bond of lower dissociation energy. if the bonds cannot be broken then they cannot be used to form covalent bonds and thus are unreactive. they are unreactive partly because their dissociation energy is high. in other words for the slow ones jk lol: the higher the dissociation energy the less reactive. ex carbon compounds like C-C, C-H are unreactive
It means bond is very stable or strong.
Around 154 kJ per mol
If the bond dissociation energy for reactants is high then activation energy required for the reaction also will be high.
Bond dissociation enthalpy (BDE) is a measure of how much energy is required for a bond to break in a molecule or compound. This can be quite low, e. a C-H bond, or extremely high, like a N-N triple bond, which needs almost 1000 kJ mol-1 of energy to break the bond.
They are the same
higher is the no of shared pairs of electrons higher will be the bond dissociation energy.
well its a case by case matter.Generally ionic bonds are the strongestfollowed by covalent bonds (diamonds are made of covalent networks) so it can be said that they are strongfllowed by hydrogen bondsthen diople-dipole- interactionsand finally the weakest force London dispersion forces.
The dissociation of a compound is when a molecular compound, for example: HCl(g) is broken apart to give H+ and Cl- ions when it is dissolved in water. Example the dissociation of compound HCl(g): HCl(g) --(H2O)--> H+ (aq) + Cl-(aq)
If you product has for example, dissociation of chlorine, it will have 2 atoms of chlorine in atomization, 0.5chlorine on balancing will give you only 1 mole of chlorine atom not 2 moles of atoms like dissociation enthalpy.