A hydrocarbon contains 10.5 g of carbon per gram of hydrogen. 1 litre of the vapour of the hydrocarbon at 127°C and 1 atmosphere pressure weighs 2.8g. Find the molecular formula of the hydrocarbon.

A hydrocarbon contains 10.5 g of carbon per gram of hydrogen. 1 L of vapour of the hydrocarbon at 127^(@)C and 1 atm pressure weighs 2.8 g . Find the molecular formula of the hydrocarbon.

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

A hydrocarbon contains 17.2% H. If the vapour density is 29, calculate its molecular formula.

448 mL of a hydrocarbon, having C = 87.8%, H = 12.19%, weigh 1.64 g at S.T.P Determine the molecular formula of the compound.

A hydrocarbon contains 91.3% carbon by mass. Find the empirical formula of hydrocarbon?

'X' an organic compound - containing “carbon, hydrogen & oxygen only contains, 1.92g. of carbon & 0.48g. of hydrogen. If the compound weighs 3.68g, & has a vapour density of 69, find the molecular formula of the compound. [C=12, H=1, O=16]

0.078 g of a hydrocarbon occupy 22.414 mL of volume at S.T.P. The empirical formula of the hydrocarbon is CH. The molecular formula of hydrocarbon is

A hydrocarbon contains 82.8% of carbon and has a relative molecular mass of 58. Write its empirical formula.

A gaseous hydrocarbon on analysis gave the following data : (i) It contains C = 82.7% and H = 17.3% (ii) The mass of 132 mL (measured at S.T.R) of it is 0.342 g. Find the molecular formula of the hydrocarbon.

A pure gas that is 14.3% hydrogen and 85.7% carbon by mass has a density of 2.5g L^(-1) at 0^(@)C and 1 atm pressure. What is the molecular formula of the gas :