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The standard enthalpy of formation of NH...

The standard enthalpy of formation of `NH_(3)` is `-46.0KJ mol^(-1)` . If the enthalpy of formation of `H_(2)` from its atoms is `-436KJ mol^(-1)` and that of `N_(2)` is `-712KJ mol^(-1)` , the average bond enthalpy of `N-H` bond in `NH_(3)` is

A

`-1102 kJ mol^(-1)`

B

`-964 kJ mol^(-1)`

C

`+352 kJ mol^(-1)`

D

`+1056 kJ mol^(-1)`

Text Solution

Verified by Experts

The correct Answer is:
C
`(1)/(2)N_(2)+(3)/(2)H_(2)rarr NH_(3) , Delta H=-46 kJ mol^(-1)`
`2H rarr H_(2) , Delta H =-436 kJ mol^(-)`
`2N rarr N_(2), Delta H-712 kJ mol^(-1)`
eq (ii) and (iii) suggests that the bond dissociation energies of `H_(2)` and `N_(2)` into atoms are 436 and 712 kJ `mol^(-1)`
`therefore` For eq(i)
`Delta H= Sigma(B.E.)_("Reactants")-Sigma(B.E.)_("Products")`
`-46=[(1)/(2)xx712+(1)/(2)xx436]-3xx(B.E.)_(N-H)`
`therefore (B.E.)_(N-H)=(1056)/(3)=352 kJ mol^(-1)`
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