To determine the standard enthalpy change for the reaction between calcium oxide and hydrochloric acid, we can use Hess's Law. According to Hess's Law, the total enthalpy change for a reaction is the sum of the enthalpy changes for each step in the reaction.In this case, we have the following steps:1. Formation of CaCl2 aq from its elements: Ca s + Cl2 g CaCl2 aq Hf CaCl2 aq = -795.7 kJ/mol2. Formation of H2O l from its elements: H2 g + 1/2 O2 g H2O l Hf H2O l = -285.8 kJ/mol3. Combustion of CaO s : CaO s + H2 g + Cl2 g CaCl2 aq + H2O l Hc = -1922.6 kJ/molNow, we can use Hess's Law to find the enthalpy change for the reaction between calcium oxide and hydrochloric acid:Hrxn = Hf CaCl2 aq + Hf H2O l - HcHrxn = -795.7 kJ/mol + -285.8 kJ/mol - -1922.6 kJ/mol Hrxn = -1081.5 kJ/mol + 1922.6 kJ/molHrxn = 841.1 kJ/molSo, the standard enthalpy change for the reaction between calcium oxide and hydrochloric acid is 841.1 kJ/mol.