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
Calculate the lattice energy of CaCl2 given the following thermodynamic data: Reactions  
Given the following thermodynamic data, calculate the lattice energy of CaBr2(s).Term Value (kJ/mol)ΔH∘f[CaBr2(s)] -675ΔH∘f[Ca(g)] 178ΔH∘f[Br(g)] 112I1(Ca) 590.I2(Ca) 1145EA(Br) -325Express your answer to four significant figures, and include the appropriate units.
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.
< 4 of Review I Constants I Periodic Given the following thermodynamic data, calculate the lattice energy of CaBr2 (s). Value (kJ/mol) Term AHCaBr2(s) -675 AH(Ca(g)) 179 AHvap Br2(1) AHbond Br2(g) 30.8 193 I(Ca) 590. I2(Ca) 1145 E(Br) -325 Note that the overall formation of gaseous bromine atoms from liquid bromine molecules can be thought of as consisting of two steps, vaporization of the liquid to the gas followed by dissociation of the gaseous molecules into the component gaseous atoms....
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...
Using the data below, calculate the change in energy expected for each of the following processes. Successive Ionization Energies (kJ/mol) Atom Li 11 | 12 520.7282 590.1145 Ca 500 UAE Electron Affinities of the Halogens Atom Electron Affinity (kJ/mol) -295.2 CI -348.7 a. Li(9) + I(9) Lit (9) +I (9) Change in energy = kJ b. Ca(g) + Cl(g) + Cat (g) + C14 (9) Change in energy = kJ c. Cat(g) + C1(g) → Ca2+(g) + CI+ (g) Change...
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)?
6. Calculate the lattice enthalpy of RbCI (s) given the following thermodynamic data where IE and EA are ionization energy and electron affinity respectively. Show all chemical equations, states, and calculations for credit. (8 points) + 121.3 kJ/mol Cl 349.0 kJ/mol C EA [CI]- AH [Rb(g)]80.9 kJ/mol Rb IE [Rb]- +403.0 kJ/mol Rb - 435.4 kJ/mol RbCl AH [RbCl(s)]-
Calculate the lattice enthalpy of AgCl (s) using the following thermodynamic data. Note that the data given has been perturbed, so looking up the answer is probably not a good idea. Cl - Cl (g) Enthalpy of dissociation = 223 kJ/mol Ag (g) Enthalpy of formation = 265 kJ/mol Cl (g) Electron attachment enthalpy = -369 kJ/mol Ag (g) Enthalpy of ionization = 711 kJ/mol AgCl (s) Enthalpy of formation = -147 kJ/mol kJ/mol
Calculate the lattice energy of RbH(s) using the following thermodynamic data (all data is in kJ/mol). Rb(s) AHŞublimation = 61 kJ/mol Rb(g) Ionization energy = 383 kJ/mol H-H(g) Bond energy = 416 kJ/mol Hg) Electron affinity = -93 kJ/mol RbH) AHºr= -72 kJ/mol kJ/mol
3. Draw the Bom Haber Cycle and calculate the lattice energies for LiF, MgO, and CaC12 using the data provided in the table below. This can be done on a separate page if you are working off this template. AH (1/2 B.E.) Electon Affinity Ionization Sublimation AH EA Energy Ionic Compoud F 80 kJ/mol 328 kJ/mol Li 520 kJ/mol 155 kJ/mol LiF -594 kJ/mol 0 249.4 kJ/mol 141 kJ/mol (15) . Mg 738 kJ/mol (19) 148 kJ/mol MgO -601 kJ/mol...