Given the following reactions, find the lattice energy of KI: K*(g) + F(g) → Kl(s) K(s)...
Calculate the lattice energy for LiF(s) given the following: sublimation energy for Li(s) = +166 KJ/mol delta Hf for F(g) = +77 KJ/mol first ionization energy of Li(g) = +520 KJ/mol electron affinity of F(g) = -328 KJ/mol enthalpy of formation of LiF(s) = -617 KJ/mol
which of the following is the closest corrwct value for the crystal lattice energy (CLE) for potassium iodide. D Question 13 O pts Using the following Born-Haber Cycle, K(s) + 12 la() KI (s) - A Hormation = +327.90 kJ/mol A Hsublimation 89 kJ/mol 12 A Hsublimation 30.1 kJ/mol A Hartyst Lattice Enemy 12 (9) () 12 Hociation = 75.5 kJ/mol Herection attinty = -295.2kJ/mol K (9) K* (g) A Honization Enegy = 419 kJ/mol Which of the following is...
Calculate the lattice energy of CaCl2 given the following thermodynamic data: Reactions Energies (kJ/mol) Ca (s) --> Ca (g) 178.0 Ca (g) --> Ca+ (g) + e- 590.0 Ca+ (g) --> Ca2+ (g) + e- 1145 Cl2 (g) --> 2 Cl (g) 242.6 Cl (g) + e- --> Cl- (g) -348.7 Ca (s) + Cl2 --> CaCl (s) ΔHof = -795.0
A. Calculate the lattice energy of NaI(s) using the following thermodynamic data (all data is in kJ/mol). Note that the data given has been perturbed, so looking up the answer is probably not a good idea. Na(s) ΔHsublimation = 88 kJ/mol Na(g) Ionization energy = 476 kJ/mol I-I(g) Bond energy = 131 kJ/mol I(g) Electron affinity = -315 kJ/mol NaI(s) ΔH°f = -308 kJ/mol kJ/mol Do you expect this value to be larger or smaller than the lattice energy of...
Given the following information, calculate the lattice energy of CaF2 The enthalpy of formation of CaF2 -1228 kJ/mol Heat of sublimation of Ca 177.8 kJ/mol Bond dissociation energy of F2 159 kJ/mol First ionization energy of Ca 589.8 kJ/mol Second ionization energy of Ca 1145.4 kJ/mol . Electron affinity of F -328 kJ/mot [ Answer : -2644 KJİ I
Question 10 1 pts Given the following thermodynamic data, calculate the lattice energy of CaBrz(s). Term Value (kJ/mol) AH°formation[CaBr2(s)] -675 AH sublimation Ca(g)] 178 AH Sublimation[Brz(s)] 31 AH°bond energy[Br2(g)] 194 IE(Ca) IE2(Ca) Ea(Br) 590. 1145 -325 Enter your answer in units of kJ.
Calculate the lattice energy of LiBr(s) using the following thermodynamic data (all data is in kJ/mol). Note that the data given has been perturbed, so looking up the answer is probably not a good idea. Li(s) AHgublimation 139 kJ/mol Li(g Ionization energy-500 kJ/mol Br-Brig Bond energy 173 kJ/mol Br(g) Electron affinity 345 kJ/mol LiBr(s) AH°f-371 kJ/mol kJ/mol Submit Answer Retry Entire Group 8 more group attempts remaining Calculate the lattice energy of LiBr(s) using the following thermodynamic data (all data...
Calculate the lattice energy of AgF(s) using the following thermodynamic data (all data is in kJ/mol). Note that the data given has been perturbed, so looking up the answer is probably not a good idea. Ag(s) Asublimation -265 kJ/mol Ag(g) Ionization energy-711 kJ/mol F-F(g) Bond energy- 138 kJ/mol F(g) Electron affinity348 kJ/mol AgF(s) AHor-225 kJ/mol kJ/mol Do you expect this value to be larger or smaller than the lattice energy of AgCI(s)?
7. Use the Born Haber cycle and the given information to determine the net energy change (in kJ/mol) that takes place in the formation of KF(s) from the elements: Ks) + F2@KFS) Heat of sublimation of K = 89.2 kJ/mol Bond dissociation energy for F2 = 158 kJ/mol Lattice Energy of KF = 821 kJ/mol Eca for F = -328 kJ/mol E; for K = 418.8 kJ/mol
Use the ces to ac importan Tor this Calculate the lattice energy of AgCI(s) using the following thermodynamic data (all data is in kJ/mol). Note that the data given has been perturbed, so looking up the answer is probably not a good idea. AHsublimation 265 kJ/mol Ag(s) Ag(g) lonization energy 711 kJ/mol CI-CI(g) Bond energy 223 kJ/mol -369 kJ/mol CI(g) Electron affinity AgCl(s) AH-147 kJ/mol kJ/mol Do you expect this value to be larger or smaller than the lattice energy...