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Question

The average energy required to break a P - P bond in P4(s) into gaseous atoms is 53.2 kcal mol1. The bond dissociation energy of H2(g) is 104.2 kcal mol1; fHo of PH3(g) from P4(s) is 5.5 kcal mol1. The P - H bond energy in kcal mol1 is [Neglect presence of van der Waals forces in P4(s)]
Given: P4(s) contains 6 PP single bonds.

A
85.2 kcal mol1
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B
57.6 kcal mol1
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C
76.9 kcal mol1
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D
63.3 kcal mol1
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Solution

The correct option is C 76.9 kcal mol1
First we write all the equations along with energy required for them
Since P4 molecule has 6 PP bond
P4(s)4P(g) HoPP=53.2×6 kcal mol1
H2(g)2H(g) HoHH=104.2 kcal mol1
14P4(s)+32H2(g)PH3(g) fH=5.5 kcal mol1.
But on calculation H for this reaction will be;
14×6×53.2+32×104.23ΔHoPH
But also, given
fH=5.5 kcal mol1.
Comparing both the H's we get,
14×6×53.2+32×104.23ΔHoPH=5.5
14×6×53.2+32×104.25.5=3ΔHoPH
ΔHoPH=76.866 i.e. 76.9 kcal mol1
hence, the P - H bond energy is 76.9 kcal mol1

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