For the reaction `2H_(2)O_((l)) rarr H_(3)O_((aq))^(+) + OH_((aq))^(-)`, the value of `Delta H` is

For the reaction 2H_(2(g)) + o_(2(g)) rarr 2H_(2)O_((g)), Delta H^(@) = - 573.2 kJ . The heat of decomposition of water per mol is:

H_(2(g)) + 1/2O_(2(g)) rarr H_2O_((l)) , DeltaH = -286.2KJ H_2O_((l)) rarr H_((aq))^(+) + OH_((aq))^(-) , DeltaH = +57.3 KJ Enthalpy of ionization OH^(-) in aqueons solution is

Calculate enthalpy of ionisation of OH^(-) ion. Given: H_(2)O_((l)) to H_((aq))^(+) + OH_((aq))^(-) , DeltaH^(@) = -285.83 KJ

Consider the reactions : 2S_(2)O_(3(aq))^(2-)+I_(2(s))rarrS_(4)O_(6(aq))^(2-)+2I_((aq))^(-) S_(2)O_(3(aq))^(2-)+2Br_(2(l))+5H_(2)O_((l))rarr 2SO_(4(aq))^(2-)+4Br_((aq))^(-)+10H_((aq))^(+)

For the following reaction H_((aq))^(+) + OH_((aq))^(-) rarr H_(2)O_((l)) , Delta H = -Q , where Delta H represents

The equilibrium constant for the ionisation of RNH_(2(g)) in water as RNH_(2(g)) + H_(2)O_((l)) hArr "RNH"_(3(aq))^(+) + OH_((aq))^(-) is 8 xx 10^(-6) at 25^(@) C . Find the pH of a solution at equilibrium when pressure of RNH_(2(g)) is 0.5 bar.

The enthalpy of the reaction H_(2(g)) + O_(2(g)) rarr H_2O_((g)) is DeltaH_1 and that of H_(2(g)) + O_(2(g)) rarr H_(2)O_((l)) is Delta H_2 . Then