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Question: The pressure in a vessel that contained pure oxygen dropped from 2000 mm to 1500 mm in 47 minutes as...

The pressure in a vessel that contained pure oxygen dropped from 2000 mm to 1500 mm in 47 minutes as the oxygen leaked through a small hole into a vacuum. When the same vessel was filled with another gas, the pressure dropped from 2000 mm to 1500 mm in 74 minutes. What is the molecular weight of the gas?
A. 73
B. 75
C. 79
D. 80

Explanation

Solution

Gaseous particles tend to undergo diffusion because they have kinetic energy. Diffusion is faster at higher temperatures because the gas molecules have greater kinetic energy. The rate of diffusion of a gas is inversely proportional to the square root of its molar mass. Gas with the lowest molar mass will have the highest rate of diffusion.
Formula used: r1Mr \propto \dfrac{1}{{\sqrt M }}

Complete step by step answer:
Graham’s Law states that the effusion rate of a gas is inversely proportional to the square root of the mass of its particles.
The value of compression of two gases, the rate of diffusion through a fine hole is given by:
r1t1Mr \propto \dfrac{1}{t} \propto \dfrac{1}{{\sqrt M }} where r is the rate of diffusion, t is the time of diffusion and M is the molar mass.
The rate of diffusion depends on several factors such as the concentration gradient ( the increase or decrease in concentration from one point to another), the amount of surface area available for diffusion, and the distance the gas particles must travel.
Now, let the rate of diffusion of oxygen is rO1to1M0{r_O} \propto \dfrac{1}{{{t_o}}} \propto \dfrac{1}{{\sqrt {{M_0}} }} and the rate of diffusion of the X gas is rX1tX1MX{r_X} \propto \dfrac{1}{{{t_X}}} \propto \dfrac{1}{{\sqrt {{M_X}} }}
Therefore, comparing both formulae,

t0tx=M0MX 4774=32MX MX=(7447)2×32 MX=79.32  \dfrac{{{t_0}}}{{{t_x}}} = \dfrac{{\sqrt {{M_0}} }}{{\sqrt {{M_X}} }} \\\ \dfrac{{47}}{{74}} = \dfrac{{\sqrt {32} }}{{\sqrt {{M_X}} }} \\\ {M_X} = {\left( {\dfrac{{74}}{{47}}} \right)^2} \times 32 \\\ {M_X} = 79.32 \\\

Therefore, the molar mass of the gas is 79.32gm/mol79.32gm/mol.

Hence option C is correct.

Note:
Diffusion is inversely proportional to molecular weight. Therefore, NH3N{H_3} has the highest diffusion rate, whereas, carbon dioxide has the greatest molecular mass and therefore should be expected to diffuse the slowest.