The standard heat of formation of PI3(s) is -24.7 kJ/mol and the PI bond energy in...

Given the following information: Energy of sublimation of K(s) = 77 kJ/mol Bond energy of HCl...

Given the following information: Energy of sublimation of K(s) = 77 kJ/mol Bond energy of HCl = 427 kJ/mol Ionization energy of K(g) = 419 kJ/mol Electron affinity of Cl(g) = –349 kJ/mol Lattice energy of KCl(s) = –705 kJ/mol Bond energy of H2 = 432 kJ/mol Calculate the net change in energy for the following reaction: 2K(s) + 2HCl(g) → 2KCl(s) + H2(g) ΔE = ______ kJ

The bond dissociation energy for H-O is 463 kJ/mol. In the stratosphere, water vapor photodissociate as...

The bond dissociation energy for H-O is 463 kJ/mol. In the stratosphere, water vapor photodissociate as follows: H2O + hv --> H(g) + OH (g). calculate the heat of formation of OH(g) given the standard heat of formation of H2O(g) is -242 kj/mol.

Calculate the lattice energy for NaF (s) given the following sublimation of energy +109 kj/mol Hf...

Calculate the lattice energy for NaF (s) given the following sublimation of energy +109 kj/mol Hf for F (g) + 77 kj/mol first ionization energy of Na (g) +495 electron affinity of F(g) -328 enthalpy of formation of NaF(s) -570 kj/mol A. -177 B. 192 C. -804 D. -1047 E. -923

The heat of formation of Fe2O3(s) is -826.0 kJ/mol. Calculate the heat of the reaction when...

The heat of formation of Fe2O3(s) is -826.0 kJ/mol. Calculate the heat of the reaction when a 55.8-g sample of iron is reacted.

te the lattice energy for LiF(s) given the following: sublimation energy for Li(s) +166 kJ/mol ∆Hf...

te the lattice energy for LiF(s) given the following: sublimation energy for Li(s) +166 kJ/mol ∆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 A. none of these B. –650. kJ/mol C. 285 kJ/mol D. 800. kJ/mol E. 1052 kJ/mol

Given the following information: Li(s) → Li(g) enthalpy of sublimation of Li(s) = 166 kJ/mol HF(g)...

Given the following information: Li(s) → Li(g) enthalpy of sublimation of Li(s) = 166 kJ/mol HF(g) → H(g) + F(g) bond energy of HF = 565 kJ/mol Li(g) → Li+(g) + e– ionization energy of Li(g) = 520. kJ/mol F(g) + e– → F–(g) electron affinity of F(g) = -328 kJ/mol Li+(g) + F–(g) → LiF(s) lattice energy of LiF(s) = -1047 kJ/mol H2(g) → 2H(g) bond energy of H2 = 432 kJ/mol Calculate the change in enthalpy for: 2Li(s)...

15. The heat of formation of OsO4 (s) , Hof OsO4 (s) , is -391 kJ...

15. The heat of formation of OsO4 (s) , Hof OsO4 (s) , is -391 kJ mole-1 at 298 K and the heat of sublimation is 56.4 kJ mole-1. What is Ho298 for the process shown below under standard state conditions? Os (s) + 2 O2(g) -----> OsO4 (g)

The standard free energy of formation of KBr(s) is –380.4 kJ/mol.  What is delta G° for the...

The standard free energy of formation of KBr(s) is –380.4 kJ/mol.  What is delta G° for the reaction 2KBr(s) --> 2K(s) + Br2(l) ?

Calculate the energy of electrostatic attractions of LiCl(s). The following information is needed. Heat of sublimation...

Calculate the energy of electrostatic attractions of LiCl(s). The following information is needed. Heat of sublimation for Li(s)= 161 kJ/mol Eea for Cl(g)= −349 kJ/mol Bond dissociation energy for Cl2(g)= 243 kJ/mol Ei for Li(g)= 520 kJ/mol Li(s)+12Cl2(g)→LiCl(s)ΔE= −409 kJ/mol

Calculate the second ionization energy of the metal M (ΔHion2° in kJ/mol) using the following data:...

Calculate the second ionization energy of the metal M (ΔHion2° in kJ/mol) using the following data: Lattice enthalpy of MO(s), ΔHl° = -2297 kJ/mol Bond dissociation enthalpy of O2(g) = +498 kJ/mol First electron affinity of O = -141 kJ/mol Second electron affinity of O = +744 kJ/mol Enthalpy of sublimation of M = + 102 kJ/mol First ionization energy of M = + 340 kJ/mol Standard enthalpy of formation of MO(s), ΔHf° = -336 kJ/mol Refer to the textbook...