7. The lattice energy is defined as the energy required to break one mole of an ionic solid into its ions in the gas phase. The lattice energy for calcium oxide corresponds to the following reactic CaO(s) → Ca2+(g) + O2-(g) AH = ? Using the following information, determine the lattice energy for calcium oxide. 1. Ca(s) → Ca(g) AH = 178.2 kJ AH = 1747.9 kJ AH = 498.3 kJ 2. Ca(g) → Ca2-(g) + 2e- 3. O2(g) → 2O(g) 4. 02(g) → O(g) + 2e- AH = -702 kJ 5. Ca(s) + ½ O2(g) → CaO(s) AH = -635.0 kJ

please help me find the answer to #2. I got -62.64 but it was incorrect. I am hoping to find my mistake. 

 

1. Based on Question 7 from The Additivity of Heats (Hess's Law) Worksheet, what is the calculated value (kJ) for the Lattice Energy of CaO?  Do not type units into your answer.

Answer: 3512

 

2.

Using the unrounded answer from the previous problem determine q (kJ) for the following reaction when 1.00 grams of solid calcium oxide forms.  Do not type units into your answer.

 

Ca²⁺(g) + O^2-(g) ⟶⟶ CaO(s)

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7. The lattice energy is defined as the energy required to break one mole of an ionic solid into its ions in the gas phase. The lattice energy for calcium oxide corresponds to the following reaction. CaO(s) → Ca2-(g) + 02 (g) AH = ? Using the following information, determine the lattice energy for calcium oxide. 1. Ca(s) → Ca(g) AH = 178.2 kJ 2. Ca(g) → Ca²•(g) + 2e- 3. O2(g) → 2O(g) AH = 1747.9 kJ AH = 498.3 kJ 4. 02(g) → O(g) + 2e- 5. Ca(s) + 2 O2(g) → CaO(s) AH = -635.0 kJ AH = -702 kJ