`DeltaH` for the reaction at 298 K `CO(g)+1//2O_(2)(g)` is `282.85 KJ mol^(-1)`. Calculate `DeltaU` of the reaction.

For the reaction : C(s) + O_(2)(g) rarr CO_(2)(g)

The enthalpy of the reaction : H_(2)O_(2)(l) rarr H_(2)O(l) + (1)/(2)O_(2)(g) is -98.3 KJ mol^(-1) and the enthalpy of formation of H_(2)O(l) is -285.6 kJ mol^(-1) . The enthalpy of formation of H_(2)O_(2)(l) is :

The equilibrium constant for the reaction 2SO_(3(g))hArr2SO_(2(g))+O_(2(g)) is 0.15 at 900 K. Calculate the equilibrium constant for the reaction 2SO_(2(g))+O_(2(g))hArr2SO_(3(g)) at the same temperature.

From the data given below at 298 K for the reaction : CH_(4)(g) + 2O_(2)(g) rarr CO_(2)(g) + 2H_(2)O(l) Calculate the enthalpy of formation of CH_(4)(g) at 298 K. Enthalpy of reaction is = -893.5 kJ Enthalpy of formation of CO_(2)(g) = 393. kJ mol^(-1) Enthalpy of formation of H_(2)O(l) = 286.0 kJ mol^(-1) .

The initial concentration of N_(2)O_(5) in the following first order reaction N_(2)O_(5)(g) to 2NO_(2)(g) + (1)/(2) O_(2)(g) was 1.24 xx 10^(-2) mol L^(-1) at 318K. The concentration of N_(2)O_(5) after 60 mintues was 0.2 xx10^(-2) mol L^(-1) . Calculate the rate constant of the reaction.