From the following data at constant volume for combustion of benzene, calculate the heat of this reaction at constant pressure condition.
`C_(6)H_(6(1))+71//2O_(2(g))rarr 6CO_(2(g))+13H_(2)O_((l))`

Calculate the hest of reaction of the following reaction : C_(6)H_(12)O_(6(s)) + rarr 6CO_(2(g)) + 6H_(2)O_((g)) : Delta H = ?

The difference between heats of reaction at constant pressure and constant volume for the reaction : 2C_(6)H_(6)(l)+15O_(2)(g)rarr 12CO_(2)(g)+6H_(2)O(l) at 25^(@)C is :

The difference between heats of reaction at constant pressure and constant volume for the reaction. 2C_(6)H_(6)(l) +15O_2(g) rarr 12CO_(2)(g) + 6H_(2)O(l) at 25^(@)C is :

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

The difference between heats of reaction at constant pressure and constant volume for the reaction : 2C_6H_6(l) + 15O_2 (g) to 12CO_2(g) + 6H_2O (l) at 27^@C

1.250 g of a sample of octane (C_(8)H_(18)) is burnt in excess of oxygen in a bomb calorimeter. The temperature of the calorimeter rises from 298 K to 304.73 K. If heat capacity of calorimeter is 8.93 kJ/K. Calculate the heat transferred. Also calculate Delta U and Delta H of the reaction at 298 K. The reaction involved is C_(8)H_(18(l)) + (25)/(2)O_(2(g)) rarr 8CO_(2(g)) + 9H_(2)O_((l)) .