The enthalpy change for the formation of 3.6 kg water is _____ .
`H_(2(g))+1/2 O_(2(g)) to H_2 O_((l)), Delta H=-284.5 kJ mol^-1`

Calculate heat of formation of water at constant volume at 300 K. Given that: H_(2(g))+1/2O_(2(g))rarr H_2O_(l) DeltaH=-284.2kJ

Calculate the free energy change for the following reaction at 300 K. 2CuO_((s)) rarr Cu_(2)O_((s))+(1)/(2)O_(2(g)) Given Delta H = 145.6 kJ mol^(-1) and Delta S = 116.JK^(-1) mol^(-1)

The enthalphy change for the reaction, H_2O(s)rarrH_2O_(l) is called enthalpy

The standard enthalpy change for the reaction H_(2(g)) rarr H_((g)) + H_((g)) is + 436.4 kj mol^(-1) . Calculate standard enthalpy of formation of atomic hydrogen.

For the following reaction at 298 K, H_(2(g))+1/2 O_(2(g))to H_2 O_((l)) , Which of the following alternative is CORRECT?

For hydrogen-oxygen fuel cell at one atm and 298 K, H_(2(g))+(1)/(2)O_(2(g)) to H_(2)O_((l)), DeltaG^(@) = -240 kJ E^(@) for the cell is approximately ___________. (Given IF = 96500 C)

Given: C_(("Graphite"))+O_(2(g))toCO_(2(g)), Delta_rH^@=-393.5 kJ mol^-1 H_(2(g))+1/2 O_(2(g)) to H_2O_((l)), Delta_rH^@=-285.8 kJ mol^-1 CO_(2(g))+2H_2O_((l)) to CH_(4(g))+2O_(2(g)), Delta_r H^@=+890.3 kJ mol^-1 Based on the above thermochemical equations, the value of Delta_r H^@ at 298 K for the reaction C_(("graphite")) + 2H_(2(g)) to CH_(4(g)) will be _________ .