For a gaseous reaction, `A(g)+3B(g)to3C(g)+3D(g),DeltaU` is 17 kcal at `27^(@)C`. Assuming `R=2cal" "K^(-1)mol^(-1)`, the value of `DeltaH` for the above reaction is:

For a gaseous reaction, A(g)+3B(g)to3C(g)+3D(g),DeltaD is 17 kcal at 27^(@)C . Assuming R=2cal" "K^(-1)mol^(-1) , the value of DeltaH for the above reaction is:

For a gaseous reaction A(g) + 3 B(g) rightarrow 3C(g) + 3D(g) Delat E is 27 kcal at 37^(@)C . Assuming R = 2 cal K^(-1) mol^(-1) the value of Delta H for the above reaction will be

For the gaseous reaction: 2A_((g))+3B_((g)) rarr 3C_((g))+4D_((g))" at "27C, Delta H=17 kcal. Assuming that R=2 cal K^(-1)" mol"^(-1), Delta U for the reaction is

For the reaction A(g)+2B(g)rarr2C(g)+3D(g) , the value of DeltaH at 27^(@)C is 19.0 kcal . The value of DeltaE for the reaction would be (R=2.0 cal H^(-1)mol^(-1))

For the reaction at 298 k, A(g) +B(g) hArr C(g) +D(g) DeltaH_0=-29.8 kcal, DeltaS^@=-0.100 kcal K^(-1) Find the value of equilibrium constant at the same temp.

The value of enthalpy change (DeltaH) for the reaction C_(2)H_(5)OH (l)+3O_(2) (g) rarr 2CO_(2) (g) +3H_(2)O (l) at 27^(@)C is -1366.5 kJ mol^(-1) . The value of internal energy change for the above reactio at this temperature will be