For the reaction
`C_(3)H_(8)(g)+5O_(2)(g)rarr3CO_(2)(g)+4H_(2)O(l)`
at constant temperature, `DeltaH-DeltaU` is

For the reaction C_(3)H_(8)(g) + 5 O_(2)(g) rightarrow 3CO_(2)(g) + 4 H_(2)O(l) at constant temperature , DeltaH - Delta E is

For the reaction C_2H_(5)OH(l) + 3 O_(2)(g) rightarrow 2CO_(2)(g) + 3 H_(2)O(l) , which one is true ?

If Delta E is the heat of reaction for C_(2)H_(5)OH_((1))+3O_(2(g)) rarr 2CO_(2(g))+3H_(2)O_((1)) at constant volume, the Delta H (Heat of reaction at constant pressure) at constant temperature is

Calculate Delta_(r ) H^(Θ) for the reaction : C_(6)H_(6)(l)+7.5O_(2)(g)rarr 6CO_(2)(g)+3H_(2)O(l) Given the standard heat of formations (Delta_(f)H^(Θ)) of H_(2)O(l), CO_(2)(g) and C_(6)H_(6)(l) are -57.80 kcal/mol, -94.05 kcal/mol and 19.8 kcal/mol respectively.

In the reaction 2H_(2)(g) + O_(2)(g) rarr 2H_(2)O (l), " "Delta H = - xkJ

Consider the following reaction. C_(6)H_(6)(l)+(15)/(2)O_(2)(g)rarr6CO_(2)(g)+3H_(2)O(g) signs of DeltaH, DeltaS and DeltaG for the above reaction will be

The heat of reaction for, C_(10)H_(8)+12O_(2(g)) rarr 10CO_(2(g))+4H_(2)O_((l)) at constant volume is -1228.2 kcal at 25^(@)C . Calculate the heat of reaction at constant pressure at 25^(@)C .

In the reaction C_(3)H_(6)(g)+nO_(2)(g)toCO_(2)(g)+H_(2)O(l) . The ratio of the coefficients of CO_(2) and H_(2)O is

Consider the reacting at 300K C_(6)H_(6)(l)+(15)/(2)O_(2)(l)rarr 6CO_(2)(g)+3H_(2)O(l),DeltaH=-3271 kJ What is DeltaU for the combustion of 1.5 mole of benzene at 27^(@)C ?

For the reaction : C_(2)H_(5)OH(l)+3O_(2)(g)rarr2CO_(2)(g)+3H_(2)O(g) if Delta U^(@)= -1373 kJ mol^(-1) at 298 K . Calculate Delta H^(@)