500 ml of a gaseous hydrocarbon when burnt in excess of `O_(2)` gave 2.0litres of `CO_(2)` and 2.5 litres of water vapours under same
conditions. molecular formula of the hydrocarbon is:-

10 ml of gaseous hydrocarbon on combution gives 20ml of CO_(2) and 30ml of H_(2)O(g) . The hydrocarbon is :-

1 litre of a hydrocarbon weight as much as one litre of CO_(2) . The molecular formula of hydrocarbon is :-

Molecular formula of water is H_2O_2 .

A sample of a gaseous hydrocarbon is burnt in excess oxygen. The products of the reaction are 8L of CO_(2)(g) 10 L of H_(2)O(g) , all at 0^(@)C and 1 atm pressure. The formula of the hydrocarbon is-

10mL of gaseous hydrocarbon on combustion gives 40ml of CO_(2)(g) and 50mL of H_(2)O (vapour) The hydrocarbon is .

40 ml of a hydrocarbon undergoes combustion in 260 ml oxygen and gives 160 mlof CO_(2) . If all volumes are measured under similar conditions of temperature and pressue, the formula of the hydrocarbon is

11.2 litre of a hydrocarbon at STP produces 44.8 litre of CO_(2) at STP and 36 gm of H_(2)O during its combustion. Calculate the molecular formula of hydrocarbon.

Ten millilitre of a gaseous hydrocarbon was burnt completely in 80 ml of O_2 at STP. The volume of the remaining gas is 70 ml. The volume became 50 ml, on treatment with NaOH . The formula of the hydrocarbon is:

3g of a hydrocarbons on combusion in excess of oxygen produces 8.8g of CO_(2) and 5.4g of H_(2)O . The data illustrates the law of:

When a gaseous olefinic hydrocarbon is burnt completely in excess of O_(2) , a contraction in volume equal to double to the volume of hydrocarbon is noticed then hydrocarbon will be