A 3:2 molar mixture of N(2) and CO is pr...

A 3:2 molar mixture of `N_(2)` and `CO` is present in a vessel at 500 bar pressure. Due to hole in the vessel, the gas mixture leaks out. The composition of mixture effusing out initially is

`n_(N_2):n_(CO):: 1 : 2`

`n_(N_2):n_(CO):: 6 : 1`

`n_(CO) : n_(N_2) :: 1 : 2`

`n_(CO) : n_(N_2) :: 2 : 3`

Text Solution

Verified by Experts

The correct Answer is:

Molar ratio of `N_(2)" and "CO` is 3 : 2, ie, 300 bar and 200 bar, respectively,
`(n_(N_2))/(n_(CO))=sqrt((m_(CO))/(m_(N_2)))xx(P_(N_2))/(P_(CO))= (300)/(200)= (3)/(2)`

Similar Questions

Explore conceptually related problems

If the pressure of a mixture of 56 g of N_(2) and 44.0 g CO_(2) is 3 atm , the partial pressure of N_(2) in the mixture is :

In Haber process, 30 litres of H_(2) and 30 litres of N_(2) were taken for reaction which yielded only 50% of the expected product. What will be the composition of the gaseous mixture under the above said condition in the end?

A mixture of CO and CO_(2) is found to have density of 1.50 g /litre at 30^(@)C and 730 mm. Composition of mixture is

A mixture of C_(3) H_(8) and CH_(4) exert a pressure of 320 mm of Hg at temperature TK in a V litre flask. On complete combustion, gaseous mixture contains CO_(2) only and exert a pressure of 448 mm of Hg under identical conditions. Hence mole fraction of C_(3) H_(8) in the mixture is

A 3:2 molar mixture of `N_(2)` and `CO` is present in a vessel at 500 bar pressure. Due to hole in the vessel, the gas mixture leaks out. The composition of mixture effusing out initially is

Text Solution

Similar Questions

Recommended Questions