MHT CET · Chemistry · Thermodynamics (C)
Average bond enthalpy of water is \(464 \cdot 5 \mathrm{~kJ} \mathrm{~mol}^{-1}\). If the energy required to break first \(0-\mathrm{H}\) bond is \(502 \mathrm{~kJ} \mathrm{~mol}^{-1}\), how much energy per mol is required to break second 0 -H bond?
- A \(929 \mathrm{~kJ}\)
- B \(251 \mathrm{~kJ}\)
- C \(427 \mathrm{~kJ}\)
- D \(678 \mathrm{~kJ}\)
Answer & Solution
Correct Answer
(C) \(427 \mathrm{~kJ}\)
Step-by-step Solution
Detailed explanation
Average bond enthalpy of \(\mathrm{H}_{2} \mathrm{O}\) is \(464.5 \mathrm{~kJ} \mathrm{~mol}^{-1}\)
\(\begin{array}{ll}
\mathrm{H}_{2} \mathrm{O}_{(z)} \longrightarrow \mathrm{H}_{(z)}+\mathrm{OH}_{(z)} & \Delta \mathrm{H}_{1}=502 \mathrm{~kJ} \mathrm{~mol}^{-1} \\
\mathrm{OH}_{(z)} \longrightarrow \mathrm{H}_{(z)}+\mathrm{O}_{(g)} & \Delta \mathrm{H}_{2}=?
\end{array}\)
Average bond enthalpy \(=\frac{\Delta \mathrm{H}_{1}+\Delta \mathrm{H}_{2}}{2}\)
\(\therefore \quad 464.5 \times 2=502+\Delta \mathrm{H}_{2}\)
\(\therefore \Delta \mathrm{H}_{2}=929-502=427 \mathrm{~kJ} \mathrm{~mol}^{-1}\)
\(\begin{array}{ll}
\mathrm{H}_{2} \mathrm{O}_{(z)} \longrightarrow \mathrm{H}_{(z)}+\mathrm{OH}_{(z)} & \Delta \mathrm{H}_{1}=502 \mathrm{~kJ} \mathrm{~mol}^{-1} \\
\mathrm{OH}_{(z)} \longrightarrow \mathrm{H}_{(z)}+\mathrm{O}_{(g)} & \Delta \mathrm{H}_{2}=?
\end{array}\)
Average bond enthalpy \(=\frac{\Delta \mathrm{H}_{1}+\Delta \mathrm{H}_{2}}{2}\)
\(\therefore \quad 464.5 \times 2=502+\Delta \mathrm{H}_{2}\)
\(\therefore \Delta \mathrm{H}_{2}=929-502=427 \mathrm{~kJ} \mathrm{~mol}^{-1}\)
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