Twenty millilitres of a gaseous hydrocarbon (A) was exploded with excess of oxygen in eudiometer tube. On cooling, the volume was reduced by 50ml. On further treatement with KOH solution, there was a further contraction of 40 ml.

Compound (E) is:

Twenty millilitres of a gaseous hydrocarbon (A) was exploded with excess of oxygen in eudiometer tube. On cooling, the volume was reduced by 50ml. On further treatement with KOH solution, there was a further contraction of 40 ml. The molecular formula of the hydrocarbon (A) is:

20 " mL of " a gasous bydrocarbon (A) was exploded with excess of O_2 in an eudiometer tube. On cooling, the volume was reduced by 50 mL. On further treatment with KOH, there was further contraction of 40 mL. The molecular formula of the hydrocarbon A is (a). C_2H_6 (b). C_2H_4 C_3H_6 (d). C_3H_8

Ten millilitre of a gaseous hydrocarbon is was exploded with oxygen. After the explosion, there was a contraction of 20 ml in volume. On shaking the residual gaseous mixture with KOH , there was a further concentration of 20 ml in volume. Calculate the molecualar formula. All the volumes were recorded at same temperature and pressure.

Sixteen millilitre of a hydrocarbon gas was exploded with an excess of O_2 . On cooling ,t he volume of the resulting gaseous mixture was reduced by 48 ml. When KOH was added, there was a further decrease of 48 ml in bolume. Find the volucular formula of the compound.

Nine millilitre of a mixture of methane and ethylene was exploded with 30 ml (excess) of oxygen. After cooling, the volume was 21.0 ml Further treatment with caustic potash solutio reduced the volume to 7.0 ml. Determine the composition of the mixture.

6 mL of a gaseous hydrocarbon was exploded with excess of oxygen and the product cooled. A contraction of 9 mL was observed. A further contraction of 12 mL was observed on treatment with aqueous KOH. The formula of hydrocarbon is