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Diffusion and Effusion

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Diffusion and Effusion and Graham's Law

A classic experiment to find the rate of diffusion for gases uses hydrochloric acid and ammonia

How do we know how fast a gas moves?

We usually cannot see gases, so we need ways to detect their movements indirectly. The relative rates of diffusion of ammonia to hydrogen chloride can be observed in a simple experiment. Cotton balls are soaked with solutions of ammonia and hydrogen chloride (hydrochloric acid) and attached to two different rubber stoppers. These are simultaneously plugged into either end of a long glass tube. The vapors of each travel down the tube at different rates. Where the vapors meet, they react to form ammonium chloride (NH 4 Cl), a white solid that appears in the glass tube as a ring.

Graham’s Law

When a person opens a bottle of perfume in one corner of a large room, it doesn’t take very long for the scent to spread throughout the entire room. Molecules of the perfume evaporate and the vapor spreads out to fill the entire space. Diffusion is the tendency of molecules to move from an area of high concentration to an area of low concentration until the concentration is uniform. While gases diffuse rather quickly, liquids diffuse much more slowly. Solids essentially do not diffuse.

Video of bromine diffusion http://www.youtube.com/watch?v=R_xDe004oTQ

A related process to diffusion is the effusion. Effusion is the process of a confined gas escaping through a tiny hole in its container. Effusion can be observed by the fact that a helium-filled balloon will stop floating and sink to the floor after a day or so. This is because the helium gas effuses through tiny pores in the balloon. Both diffusion and effusion are related to the speed at which various gas molecules move. Gases that have a lower molar mass effuse and diffuse at a faster rate than gases that have a higher molar mass.

Scottish chemist Thomas Graham (1805-1869) studied the rates of effusion and diffusion of gases. Graham’s law states that the rate of effusion or diffusion of a gas is inversely proportional to the square root of the molar mass of the gas. Graham’s law can be understood by comparing two gases ( A and B ) at the same temperature, meaning the gases have the same kinetic energy. The kinetic energy of a moving object is given by the equation KE =\frac{1}{2}mv^2 ,

where  m is mass and  v is velocity. Setting the kinetic energies of the two gases equal to one another gives:

\frac{1}{2}m_Av^2_A=\frac{1}{2}m_Bv^2_B

The equation can be rearranged to solve for the ratio of the velocity of gas  A to the velocity of gas  B\left(\frac{v_A}{v_B}\right) .

\frac{v^2_A}{v^2_B}=\frac{m_B}{m_A} \text{ which becomes } \frac{v_A}{v_B}=\sqrt{\frac{m_B}{m_A}}

For the purposes of comparing the rates of effusion or diffusion of two gases at the same temperature, the molar masses of each gas can be used in the equation for m .

Sample Problem: Graham’s Law

Calculate the ratio of diffusion rates of ammonia gas (NH 3 ) to hydrogen chloride (HCl) at the same temperature and pressure.

Step 1: List the known quantities and plan the problem.

Known

  • molar mass NH 3 = 17.04 g/mol
  • molar mass HCl = 36.46 g/mol

Unknown

  • velcoity ratio  \dfrac{v_{\text{NH}_3}}{v_{\text{HCl}}}

Substitute the molar masses of the gases into Graham’s law and solve for the ratio.

Step 2: Solve.

\frac{v_{NH_3}}{v_{HCl}}=\sqrt{\frac{36.46 \text{ g/mol}}{17.04 \text{ g/mol}}}=1.46

The rate of diffusion of ammonia is 1.46 times faster than the rate of diffusion of hydrogen chloride.

Step 3: Think about your result

Since ammonia has a smaller molar mass than hydrogen chloride, the velocity of its molecules is greater and the velocity ratio is larger than 1.

Summary

  • The processes of gas diffusion and effusion are described.
  • Graham’s law relates the molecular mass of a gas to its rate of diffusion or effusion.

Practice

Read the material on the link below and do the practice problems:

http://www.kentchemistry.com/links/GasLaws/GrahamsLaw.htm

Review

Questions

  1. Why can you smell food cooking when you are in the next room?
  2. Why does a helium-filled balloon gradually sink?
  3. What does temperature have to do with gas kinetic energies?

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