`A` mixture of `100ml` of `CO,CO_(2)` and `O_(2)` was sparked. When the resulting gaseous mixture was passed through `KOH` solution, contraction in volume was found to be `80ml`, the composition of initial mixture may be (in the same order)

If above gaseous mixture at 273K is passed through KOH solution , contraction in volume (in litre) will be (assume KOH solution absorb CO_(2) gas completely):

100 ml of mixture of CH_(4)(g), O_(2)(g) "and" CO_(2)(g) was sparked. There was contraction of 70 ml volume when the mixture was passed through aqueous KOH. The composition of initial gas mixture in (ml) will be in order of CH_(4)O_(2),CO_(2) :

100 ml of gaseous mixture containing CO, CO_(2) and O_(2) was sparked there was contraction of 80mL volume when the nixturc was passed through aqueous caustic potash KOH. The omposition of initial gaseous mixture will be respectively:

100ml of a mixture of CH_(4) and C_(2)H_(4) were exploded with excess of oxygen. After explosion and cooling, the mixture was treated with KOH , where a reduction of 165 ml was observed. Find the composition of the mixture taken ?

50mL of CO is mixed with 20mL of oxygen and sparked. After the reaction, the mixture is treated with an aqueous KOH solution. Choose the correct option :

20ml CO was mixed with 50 ml of oxygen and the mixture was exploded. On cooling, the resulting mixture was shaken with KOH. Find the final gaseous volume

40 ml of gaseous mixture of CO and ethyne is mixed with 100 ml of O_2 and burnt. The volume of gases after combustion is 105 ml. The composition of the original mixture is

12 mol gaseous mixture of an alkane and an alkene (containing same number of carbon atoms) require exactly 285 ml of air (containing 20% v/v O_(2) and rest N_(2) ) for complete combustion at 200K . After combustion when gaseous mixture is passes through KOH solution it shows volume contraction of 36 ml. Mole fraction of CO_(2) in final gaseous sample: