When 1.0 g of oxalic acid `(H_(2)C_(2)O_(4))` is burnt in a bomb calorimeter whose capacity is 8.75 KJ/K, the enthalpy of combustion of oxalic acid at`27^(@)C` is :

When 1.0 g of oxalic acid (H_(2)C_(2)O_(4)) is burnt in a bomb calorimeter whose capacity is 8.75 KJ/K, the temperature increases by 0.312 K, the enthalpy of combustion of oxalic acid at 27^(@)C is :

When 1.0 g of oxalic acid (H_(2)C_(2)O_(4)) is burnt in a bomb calorimeter whose capacity is 8.75 KJ/K, the temperature increases by 0.312K, the enthalpy of combustion of oxalic acid at 27^(@)C is :

When 1.0g of oxalic acid (H_(2)C_(2)O_(4)) is burned in a bomb calorimeter whose heat capacity is 8.75kJ/K, the temperature increases by 0.312K. The enthalpy of combustion of oxalic acid at 27^(@)C

When 1.0g of oxalic acid (H_(2)C_(2)O_(4)) is burnt in a bomb calorimeter whose heat capacity is 8.75 kJ//K , the temperature increases by 0.312 K. The enthalpy of combustion of oxalic acid at 27^(@)C is

When 2 g of benzene are burnt in a bomb calorimeter, the heat produced is 83.6 kJ at 298 K. Calculate the enthalpy of combustion of benzene.

1.8 g of oxalic acid (H_(2)C_(2)O_(4)) is dissolved in 200 mL of a solution. Find out the molarity of the resultant solution.

The equivalent weight of oxalic acid in C_(2)H_(2)O_(4). 2H_(2)O is

When 1 g of anhydrous oxalic acid is burnt at 25^(@)C , the amount of heat liberated is 2.835 kJ . Delta H combustion is (oxalic acid : C_(2)H_(2)O_(4))