MHT CET · Chemistry · Thermodynamics (C)
What is standard \(\mathrm{N} \equiv \mathrm{N}\) bond enthalpy from following reaction? \(\mathrm{N}_{2_{(\mathrm{g})}}+3 \mathrm{H}_{2_{(\mathrm{g})}} \longrightarrow 2 \mathrm{NH}_{3_{(\mathrm{g})}} \Delta \mathrm{H}^{\circ}=-83 \mathrm{KJ}\) \(\left(\Delta \mathrm{H}^{\circ}{ }_{(\mathrm{H}-\mathrm{H})}=435 \mathrm{~kJ}, \Delta \mathrm{H}^{\circ}{ }_{(\mathrm{N}-\mathrm{H})}=389 \mathrm{~kJ}\right)\)
- A 435 kJ
- B \(2334 \mathrm{~kJ}\)
- C \(946 \mathrm{~kJ}\)
- D \(1305 \mathrm{~kJ}\)
Answer & Solution
Correct Answer
(C) \(946 \mathrm{~kJ}\)
Step-by-step Solution
Detailed explanation
(C)
\(\mathrm{N}_{2(8)}+3 \mathrm{H}_{2(8)} \longrightarrow 2 \mathrm{NH}_{3(8)} \quad \Delta \mathrm{H}^{\circ}=-83 \mathrm{~kJ}\)
\(\Delta \mathrm{H}^{0}=\sum \Delta \mathrm{H}^{0}\) (reactant bonds) \(-\sum \Delta \mathrm{H}^{0}\) (product bonds)
\(\left.\therefore \Delta H^{0}=\left[\Delta H^{0}{ }_{(N=N)}^{0}+3 \Delta H^{0}{ }^{0} H-H\right)\right]-\) \(\left[6 \Delta H^{0}{ }^{0}(N-H)\right]\)
\(\therefore-83=\Delta H_{(N=N)}^{0}+3(435)-6(389)\)
\(\therefore-83=\Delta H_{(N=N)}^{0}+1305-2334\)
\(\therefore \Delta H^{0}(N \sim N)=-83-1305+2334\) \(=946 \mathrm{~kJ}\)
\(\mathrm{N}_{2(8)}+3 \mathrm{H}_{2(8)} \longrightarrow 2 \mathrm{NH}_{3(8)} \quad \Delta \mathrm{H}^{\circ}=-83 \mathrm{~kJ}\)
\(\Delta \mathrm{H}^{0}=\sum \Delta \mathrm{H}^{0}\) (reactant bonds) \(-\sum \Delta \mathrm{H}^{0}\) (product bonds)
\(\left.\therefore \Delta H^{0}=\left[\Delta H^{0}{ }_{(N=N)}^{0}+3 \Delta H^{0}{ }^{0} H-H\right)\right]-\) \(\left[6 \Delta H^{0}{ }^{0}(N-H)\right]\)
\(\therefore-83=\Delta H_{(N=N)}^{0}+3(435)-6(389)\)
\(\therefore-83=\Delta H_{(N=N)}^{0}+1305-2334\)
\(\therefore \Delta H^{0}(N \sim N)=-83-1305+2334\) \(=946 \mathrm{~kJ}\)
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