A gaseous mixture of `H_(2) and NH_(3)` gas contains 68 mass % of `NH_(3)` . The vapour density of the mixture is-

A gaseous mixture of H_(2) and CO_(2) gas contains 66 mass % of CO_(2) . The vapour density of the mixture is :

A gaseous mixture of H_2 and CO_2 gases contains 66 mass % of CO_2 . The vapour density of the mixture is :

A mixture contains N_(2)O_(4) and NO_(2) in the ratio 2:1 by volume. The vapour density of the mixture is:

81 gm mixture of mgCO_(3)(s) and NH_(3)CO_(3)(s) is heated to constant mass. If vapour density of gaseous mixture evolved was found to be (61)/(4) then Given that: MgCo_(3)(s) rarr MgO_(s) + CO_(2)(g) NH_(2)COONH_(4)(s) rarr 2NH_(3)(g)+CO_(2)(g) Mole % of MgCo_(3) in original sample:

81 gm mixture of mgCO_(3)(s) and NH_(3)CO_(3)(s) is heated to constant mass. If vapour density of gaseous mixture evolved was found to be (61)/(4) then Given that: MgCo_(3)(s) rarr MgO_(s) + CO_(2)(g) NH_(2)COONH_(4)(s) rarr 2NH_(3)(g)+CO_(2)(g) ltBrgt Volume (in litre0 of the total gases produced at 1 atm and 273 K:

If 340 g of a mixture of N_(2) and H_(2) in the correct ratio gas a 20% yield of NH_(3) . The mass produced would be:

A gaseous mixture contains equal mass of CH_(4) and SO_(2) gas. The mole fraction of SO_(2) in the mixture is

A gaseous mixture contains 4.0g of H_(2) and 56.0g of N_(2) . The mole fraction of H_(2) in the mixture is

A gaseous mixture contains 40% O_(2), 40% N_(2), 10% CO_(2), 10% CH_(4) by volume. Calculate the vapour density of the gaseous mixture.