Advertisements
Advertisements
प्रश्न
Enthalpy for the reaction \[\ce{Ag^+ (aq) + Br^- (aq) -> AgBr(s)}\] is −84.54 kJ. Magnitude of enthalpy of formation of Ag+ (aq) and Br− (aq) are in the ratio 8 : 9. Formation of Ag+ (aq) is an endothermic process whereas formation of Br− (aq) is an exothermic process. Enthalpy of formation of AgBr is −99.54 kJ/mol. The enthalpy of formation of Ag+ (aq) is ______ kJ/mol.
विकल्प
50
100
120
280
उत्तर
Enthalpy for the reaction \[\ce{Ag^+ (aq) + Br^- (aq) -> AgBr(s)}\] is −84.54 kJ. Magnitude of enthalpy of formation of Ag+ (aq) and Br− (aq) are in the ratio 8 : 9. Formation of Ag+ (aq) is an endothermic process whereas formation of Br− (aq) is an exothermic process. Enthalpy of formation of AgBr is −99.54 kJ/mol. The enthalpy of formation of Ag+ (aq) is 120 kJ/mol.
Explanation:
\[\ce{Ag^+ (aq) + Br^- (aq) -> AgBr(s)}\];
ΔH = −84.54 kJ .....(i)
\[\ce{Ag(s) + aq -> Ag^+ (aq)}\];
ΔH = 8x kJ .....(ii)
\[\ce{1/2 Br2(l) + aq -> Br^- (aq)}\];
ΔH = −9x kJ .....(iii)
\[\ce{Ag(s) + 1/2 Br2 (l) -> AgBr(s)}\];
ΔH = −99.54 kJ ....(iv)
From (i) + (ii) + (iii) – (iv),
(–84.54) + 8x + (–9x) – (–99.54) = 0
∴ x = 15
⇒ `Δ_"f""H"_(Ag^+"(aq)")`= 8x = 120 kJ/mol
