Oxidation of zinc Data: Standard molar enthalpy of formation of ZnCl2 (s): A¢H°1= - 416.12 kJ mol Standard molar enthalpy of formation of HCl (g): A¡H°2 = 92.08 kJ mol-! Standard molar enthalpy of dissolution of ZnCl2 (s): A;H°3= - 65.71 kJ mol- Standard molar enthalpy of dissolution of HCI (g): A¡H°4 = - 72.90 kJ mol-l Standard molar enthalpy of formation of H+ (aq): A;H°(H†, aq) = 0 kJ mol- Let's consider the reaction of oxidation of zinc by the solvated proton in the aqueous phase. This reaction is represented by the chemical reaction (1): (1) Zn (s) + 2H+ (aq) → Zn2+ (aq) + H2 (g) · Calculate the standard molar enthalpy for reaction (1). . Calculate the standard molar enthalpy of formation of the zinc cation Zn²+ in aqueous solution A,H°(Zn²*, aq).

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Oxidation of zinc Data: Standard molar enthalpy of formation of ZnCl2 (s): A¡H°1 = - 416.12 kJ mol-l Standard molar enthalpy of formation of HCl (g): A¢H°2 = - 92.08 kJ mol·' Standard molar enthalpy of dissolution of ZnCl2 (s): A;H°3= - 65.71 kJ mol-' Standard molar enthalpy of dissolution of HCl (g): A;H°4 = - 72.90 kJ mol-' Standard molar enthalpy of formation of H† (aq): A;H°(H†, aq) = 0 kJ mol·' Let's consider the reaction of oxidation of zinc by the solvated proton in the aqueous phase. This reaction is represented by the chemical reaction (1): (1) Zn (s) + 2H+ (aq) → Zn²+ (aq) + H2 (g) Calculate the standard molar enthalpy for reaction (1). . Calculate the standard molar enthalpy of formation of the zinc cation Zn2* in aqueous solution A;H°(Zn²*, aq).