Question #ba287

Question

Question #ba287

1 Answer

Impact of this question

2854 views around the world

You can reuse this answer
Creative Commons License

Answer 1 · 2015-06-24T12:04:12

The rate of effusion for water and hydrogen sulfide is 1.375.

Explanation:

To determine the rate of effusion for a gas, you can use Graham's Law

$rate \propto \frac{1}{\sqrt{M_{M}}}$ $"rate" prop 1/sqrt(M_M)$ , where

$M_{M}$ $M_M$ - the molar mass of the gas.

So, the rate of effusion of a gas is proportional to $\frac{1}{\sqrt{M_{M}}}$ $1/sqrt(M_M)$ . This tells you that the heavier the gas molecules are, i.e. the bigger their molar mass is, the slower the effusion rate.

In your case, you have to determine the ratio between the effusion rate of water and the ffusion rate of hydrogen sulfide. Using Graham's Law, you can write

$ratio = \frac{r_{H_{2} O}}{r_{H_{2} S}} = \frac{1}{\sqrt{M_{M H_{2} O}}} \cdot \sqrt{M_{M H_{2} S}}$ $"ratio" = r_(H_2O)/r_(H_2S) = 1/sqrt(M_("M"H_2O)) * sqrt(M_("M"H_2S)$

$\frac{r_{H_{2} O}}{r_{H_{2} S}} = \frac{\sqrt{M_{M H_{2} S}}}{\sqrt{M_{M H_{2} O}}}$ $r_(H_2O)/r_(H_2S) = sqrt(M_("M"H_2S))/sqrt(M_("M"H_2O))$

This means that you get

$r_(H_2O)/r_(H_2S) = sqrt(34.08cancel("g/mol"))/sqrt(18.02cancel("g/mol")) = sqrt(34.08/18.02) = color(green)(1.375)$

In other words, water has a faster effusion rate than hydrogen sulfide.

Science

Math

Humanities

... and beyond

Question #ba287

1 Answer

Explanation:

Related questions

Impact of this question