`1.0`litre sample of a mixture of `CH_(4)` and `O_(2)` measured at `25^(@)C` and `740 ` torr, was allowed to react at constant pressure in a calorimeter, together with its contents had a heat capacity of `1260 cal K^(-1)`. The complete combustion of `CH_(4)` to `CO_(2)` and water caused a temperature rise in calorimeter of `0.667K`. Calculate mole `%` of `CH_(4)` in the original mixture. Heat of combustion of `CH_(4)` is `-210.8 kcal. `

One litre sample of a mixture of CH_(4) and O_(2) measured at 32^(@)C and 760 torr, was allowed to react at constant pressure in a calorimeter which together with its content has a heat capacity of 1260 cal/degree. The complete combustion of CH_(4) to CO_(2) and water caused a temperature rise in calorimeter of 0.667K . calculate mole % of CH_(4) in original mixture. [Given: Heat of combustion of CH_(4) is -210.8 Kcal//mol . Total heat capacity of the calorimeter = 2108 cal K ]

Find out mole % of C in CH_(4)

If, combustion of 4g of CH_(4) liberates 2.5kcal of heat, the heat of combustion of CH_(4) is :

The volume of O_(2) at STP required for the complete combustion of 4 g CH_(4) is

In the combustion of 0.4 g. of CH_(4) 0.25 Kcal. Of heat is liberated. The heat of combustion of CH_(4) is

DeltaU^(@) of combustion of CH_(4(g)) at certain temperature is -"393 kJ mol"^(-1) . The value of DeltaH^(@) is

The heat librerated on complete combustion of 1 mole of CH_(4) gas to CO_(2)(g) and H_(2)O(l) is 890 kJ. Calculate the heat evolved by 2.4 L of CH_(4) on complete combustion. ( 1 mol of CH4 at 298K and 1 atm= 24L)

Work done during the combustion of one mole of CH_(4) in bomb calorimeter is

2.2016 gm of acetaldehyde produceed 13.95 Kcal of heat on combustion. The heat of combustion of CH_(3)CHO will be

4g of O_(2) and 2g " of " H_(2) are confined in a vessel of capacity 1 litre at 0^(@)C . Calculate the total pressure of the gaseous mixture.