AIBr (s)Al(g)+3 Br(g) AH° = ? Chemical reaction AH in kJ/mol Type of reaction Al (g)...
5. Calculate the lattice energy for barium bromide given that AH, for this compound is -757.3 kJ mol, the entropy of sublimation of barium is 180. kJ molt, the electron affinity for bromine is -324.5 kJ mol", the first lonization energy of barium is 502.8 kJ mol", the second lonization energy of barium is 965.2 kJ moll, and the heat of vaporization of bromide is 30.9 kJ mol (6 pts)
5. Calculate the lattice energy for barium bromide given that AH, for this compound is -757.3 kJ mol, the entropy of sublimation of barium is 180. kJ molt, the electron affinity for bromine is -324.5 kJ mol", the first lonization energy of barium is 502.8 kJ mol", the second lonization energy of barium is 965.2 kJ moll, and the heat of vaporization of bromide is 30.9 kJ mol (6 pts)
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 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
Consider the following information. • The lattice energy of NaCl is AHlattice = –788 kJ/mol. • The enthalpy of sublimation of Na is AHsub = 107.5 kJ/mol. • The first ionization energy of Na is IE1 = 496 kJ/mol. • The electron affinity of Cl is AHEA = -349 kJ/mol. • The bond energy of Cl, is BE = 243 kJ/mol. Determine the enthalpy of formation, AHf, for NaCl(s). AH= kJ/mol
A Reaction is given: ½Br2(l) --> Br(g) Ho = 112kJ/mol The bond enthalpy of Br-Br is 193 kJ/mol A. Formulate the vaporization process of 1 mol bromine Br2(l). B. Calculate the enthalpy of the vaporization process bromine. Show calculations C. Calculate the energy invested \ emitted by the evaporation of 3.2 gr of bromine. Show calculations. (Explain how you determined whether the energy is invested or emitted in this process). D.A Reaction is given: ½H2(g) + ½Br2(l) --> HBr(g) Ho...
3. For the reaction, P,(s, red) + 10 CL(g) a) AH°(in the units of kcal, kJ, and liter-atm) b) AE (in the units of kJ) c) work (w) (in the units of kJ) 4 PCl,(g), calculate: АН, Р =-73.6 kJ mol 4(s,red) AHP PCI,(g) = -398.9 kJ mol 6. For a chemical process 50. kJ of heat energy were released and 20. kJ of work were done by the system. Calculate AE for this process.
Calculate the heat of formation for CaCO3(s) (kJ/mol) given that AH for the following reaction is +178 mole and instander enthalpies of formation: CaCO3(s) - CaO(s) + CO26) AHºf values (kJ/mol): CaO(s) = -635.1, CO2(g) = -393.5 Enter your answer as the nearest whole number with no units.
Review Problem 8.065 Construct an enthalpy diagram with the following data to calculate the electron affinity of bromine. The standard heat of formation of NaBr is -360.0 kJ molº?. The energy needed to vaporize one mole of Br2(l) to give Br2(g) is 31 kJ mol-1. Energy needed to vaporize one mole of Na(s) is 107.8 kJ. The first ionization energy of Na is 495.4 kJ mol-1. The bond energy of Br2 is 192 k) per mole of Br- Br bonds....
Rutle (TIO2) (Iv) (8) [25] Question 2 2 (a) () Using a Bom-Haber cycle, calculate the lattice enthalpy of LIO2, given the following data AH°(kJ/mol) +161 Sublimation of Li(s) +520 lonization of LI(g) +498 Dissociation of O2(g) -141 Electron affinity of O(g) +865 Electron affinity of O (g) -598 Enthalpy of formation of LIO2 TURN OVE