Answer :
Answer:
The order of effusion from highest to lowest will be:
[tex]^1H^{35}Cl[/tex] > [tex]^2H^{35}Cl[/tex] > [tex]^1H^{37}Cl[/tex] > [tex]^2H^{37}Cl[/tex]
Explanation:
Isotopes of hydrogen ; [tex]^1H[/tex] and [tex]^2H[/tex]
Isotopes of chlorine ; [tex]^{35}Cl[/tex] and [tex]^{37}Cl[/tex]
Mass of [tex]^1H[/tex] = 1 g/mol
Mass of [tex]^2H[/tex] = 2g/mol
Mass of [tex]^{35}Cl[/tex] = 35 g/mol
Mass of [tex]^{37}Cl[/tex] = 36 g/mol
Mass of [tex]^1H^{35}Cl[/tex] = 1 g/mol+35 g/mol =36 g/mol
Mass of [tex]^1H^{37}Cl[/tex] = 1 g/mol+37 g/mol =38 g/mol
Mass of [tex]^2H^{35}Cl[/tex] = 2 g/mol+35 g/mol =37 g/mol
Mass of [tex]^2H^{37}Cl[/tex] = 2 g/mol+37 g/mol =39 g/mol
Graham's law states that the rate of effusion or diffusion of gas is inversely proportional to the square root of the molar mass of the gas. The equation given by this law follows the equation:
[tex]\text{Rate of diffusion}\propto \frac{1}{\sqrt{\text{Molar mass of the gas}}}[/tex]
Decreasing order of masses :
[tex]^2H^{37}Cl[/tex] > [tex]^1H^{37}Cl[/tex] > [tex]^2H^{35}Cl[/tex] > [tex]^1H^{35}Cl[/tex]
So, the order of effusion will be revered :
[tex]^2H^{37}Cl[/tex] < [tex]^1H^{37}Cl[/tex] < [tex]^2H^{35}Cl[/tex] < [tex]^1H^{35}Cl[/tex]
The order of effusion from highest to lowest will be:
[tex]^1H^{35}Cl[/tex] > [tex]^2H^{35}Cl[/tex] > [tex]^1H^{37}Cl[/tex] > [tex]^2H^{37}Cl[/tex]