Consider a hypothetical ionic compound AB (comprised of A* and B-ions). Given the following enthalpy data and using a Born-Haber cycle calculation, predict AHlattice in kJ mol-¹. A(s) + B(s) → AB(s) AH = -376 kJ mol-¹ - A(s) → A(g) AH = 107 kJ mol-¹ B(s) → Big) AH = 105 kJ mol-1 - First ionization energy of Ag) = 500 kJ mol-¹ Electron affinity enthalpy of Big) (exothermic) = -316 kJ mol-¹

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Consider a hypothetical ionic compound AB (comprised of A+ and B-ions).
Given the following enthalpy data and using a Born-Haber cycle calculation, predict AH lattice in kJ mol-¹.
A(s) + B(s) → AB(s) A-H = -376 kJ mol-¹
A(s) → A(g) A-H = 107 kJ mol-¹
B(s) → B(g) AH = 105 kJ mol-¹
First ionization energy of A(g) = 500 kJ mol-¹
Electron affinity enthalpy of B(g) (exothermic) = -316 kJ mol-¹
Answer:
Transcribed Image Text:Consider a hypothetical ionic compound AB (comprised of A+ and B-ions). Given the following enthalpy data and using a Born-Haber cycle calculation, predict AH lattice in kJ mol-¹. A(s) + B(s) → AB(s) A-H = -376 kJ mol-¹ A(s) → A(g) A-H = 107 kJ mol-¹ B(s) → B(g) AH = 105 kJ mol-¹ First ionization energy of A(g) = 500 kJ mol-¹ Electron affinity enthalpy of B(g) (exothermic) = -316 kJ mol-¹ Answer:
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