Use the data given below to construct a Born-Haber cycle to determine the second ionization energy of Ca. Δ H°(kJ) Ca(s)→Ca(g) 193 Ca(g)→Ca (g) e− 590 2O(g)→O2(g) - 498 O(g) e−→O−(g) -141 O−(g) e−→O2−(g) 878 Ca(s) 12O2(g)→CaO(s) -635 Ca2 (g) O2−(g)→CaO(s) - 3414
A.1010 kJ
B.1508 kJ C.-1514 kJ D.-3027 kJ E.1757 kJ