QUESTION 14 Use the following data to construct a well-labelled Born-Haber cycle for the formation of potassium fluoride, KF as in the equation below. Determine the standard enthalpy of formation, AH", for KF. K (s) + % F2 (g) KF (s) Type of standard enthalpy Enthalpy of atomisation of K First ionisation energy of K Bond dissociation enthalpy of F2 First electron affinity of F Lattice energy of KF AH" (kJ mol') +90.0 +419.0 +157.0 -328.0 -794.0

Question 13 & Question 14

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QUESTION 14 Use the following data to construct a well-labelled Born-Haber cycle for the formation of potassium fluoride, KF as in the equation below. Determine the standard enthalpy of formation, AH°, for KF. K (s) + % F2 (g) KF (s) AH° (kJ mol1) Type of standard enthalpy Enthalpy of atomisation of K First ionisation energy of K Bond dissociation enthalpy of F2 First electron affinity of F Lattice energy of KF +90.0 +419.0 +157.0 -328.0 -794.0

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QUESTION 13 Thionyl chloride, SOCI, and phosphoryl chloride, POCI; are produced by the following reactions. SocCl (1) + H20 (I) → SO2 (g) + 2HCI (g) PCI: (1) + 02 (g) → POCI3 (1) + Cl2 (g) - PCI3 (1) AHran = +10.3 kJ AH = -325.7 kJ AH ran = -306.7 kJ AH ren = -202.6 kJ P (s) 4HCI (g) + O2 (g) → 2C2 (g) + 2H2O (1) Calculate the standard enthalpy of reaction in kJ for the production of SOCI2 and POCI3. 2s02 (g) + 2P (s) + 5CI2 (g) - 2SOCI, (1) + 2POCI3 (1)