Use the Born-Haber cycle to calculate the lattice energy of KF. [The heat of sublimation of K is 91.6 kJ·mol⁻¹ and 

Δ_fH(KF) = −567.3 kJ·mol⁻¹.

 Bond enthalpy for F₂ is 

158.8 kJ·mol⁻¹.

 Other data may be found in the Ionization Energies Table and the Electron Affinities Table.]

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The lonization Energies (kJ mol-¹) of the First 20 Elements Z Element First Second Third Fourth 1 H 2 He 5251 3 Li 7300 11815 4 Be 1757 14850 21005 5 B 2430 3660 25000 2350 4620 6220 2860 4580 7500 3390 5300 7470 3370 6050 8400 3950 6120 9370 4560 6900 9540 1450 7730 10500 1820 2750 11600 1580 3230 4360 1904 2910 4960 2250 3360 4660 2297 3820 5160 2666 3900 5770 3052 4410 5900 1145 4900 6500 دیا 160 7 8 9 10 11 12 13 14 15 16 17 18 19 20 UZO C N F Ne Na Mg Al Si P S Cl Ar K Ca 1312 2373 520 899 801 1086 1400 1314 1680 2080 495.9 738.1 577.9 786.3 1012 999.5 1251 1521 418.7 589.5 Fifth 32820 38000 9400 11000 11000 12200 13400 13600 14800 16000 6240 6990 6540 7240 8000 8100 Sixth 47300 53000 13000 15200 15000 16600 18000 18400 20000 21000 8500 9300 8800 9600 11000

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Electron Affinities (kJ mol-¹) of Some Representative Elements and the Noble Gasesa 1A 3A 4A 5A 6A 7A 8A 2A H 73 He <0 Li Be B C O F Ne 60 ≤0 27 122 141 328 <0 Na Mg Al Si S C1 Ar 53 ≤0 44 134 72 200 349 <0 K Ca Ga Ge As Se Br Kr 48 2.4 29 118 77 195 325 <0 Rb Sr In Sn Sb Te I Xe 47 4.7 29 121 101 190 295 <0 Cs Ba T1 Pb Bi Po At Rn 45 14 30 110 110 183 270 <0 a The electron affinities of the noble gases, Be, N, and Mg have not been determined experimen- tally but are believed to be close to zero or negative. N ≤0 P