Enthalpy of neutralisation of all strong acids and strong bases has the same value because

Why is heat of neutralisation for a strong acid and strong base constant ?

The enthalpy of formation of H_(2)O(l) is -280.70 kJ/mol and enthalpy of neutralisation of a strong acid and strong base is -56.70 kJ/mol. What is the enthalpy of formation of OH^(-) ions?

The heat of neutralization of a strong acid by a strong base is a constant because :

Enthalpy of dissociation of H_2C_2O_4rightarrow2H^(+)+C_2O_4^(2-) will be ______ if enthalpy of neutralisation of strong acid and strong base is -13.7 kcal mol^-1 and that of oxalic acid by a strong base is -25 kcal mol^-1 .

The heat of neutralization for a strong acid by a strong base is a constant

The heat of neutralization of any strong acid and a strong base is nearly equal to :

The enthalpy of neutralisation of a strong acid by a strong base is -57.32 kJ mol^(-1) . The enthalpy of formation of water is -285.84 kJ mol^(-1) . The enthalpy of formation of hydroxyl ion is

Enthalpy of neutralization of strong acid with strong base is 13.7 kcal. When an unknown acid (1 eq) is neutralizedwith (1 eq.) strong base, the enthalpy change is 10.7 kcal which of the following statements is/are correct regarding unknown acid?

It is known that entropy of neutralisation of a strong acid and strong base is -13.68kcal/mol.If enthalpy of neutralisation of N_2H_4 (hydrazine) with strong acid is equal to -11.68 kcal/mol, then enthalpy of the reaction N_2H_4+H_2OtoN_2H_5^+(aq)+OH^(-)(aq) in Kcal/mol is :

Statement-1 : Neutralisation reaction is an Endothermic Process. Statement-2 : Standard Enthalpy of Neutralisation for different pairs of strong acid and strong base are different. Statement-3 : Standard Enthalpy of Neutralisation for a pair of strong acid and strong base is higher than that of weak acid and weak base.