Gases Mixtures and Movements PrenticeHall Chapter 14 4
- Slides: 24
Gases: Mixtures and Movements Prentice-Hall Chapter 14. 4 Dr. Yager
Objectives v Relate the total pressure of a mixture of gases to the partial pressures of the component gases v Explain how the molar mass of a gas affects the rate at which the gas diffuses and effuses
Dalton’s Law In a mixture of gases, the total pressure is the sum of the partial pressures of the gases.
Partial Pressure The contribution each gas in a mixture makes to the total pressure is called the partial pressure exerted by that gas.
Dalton’s Law of Partial Pressures states that, at constant volume and temperature, the total pressure exerted by a mixture of gases is equal to the sum of the partial pressures of the component gases.
Three gases are combined in Container T. + + =
The partial pressure of oxygen must be 10. 67 k. Pa or higher to support respiration in humans. The Mt. Everest climber below needs an oxygen mask and a cylinder of compressed oxygen to survive.
A gas mixture containing oxygen, nitrogen, and carbon dioxide has a total pressure of 32. 9 k. Pa. If PO 2 = 6. 6 k. Pa, and PN 2 = 23. 0 k. Pa, what is the pressure of the carbon dioxide? Ptotal = sum of all the partial pressures 32. 9 k. Pa = 6. 6 k. Pa + 23. 0 k. Pa + pressure of CO 2 3. 3 k. Pa = pressure of CO 2
Diffusion vs Effusion v Diffusion is the tendency of molecules to move towards areas of lower concentration. v Effusion is the movement of a gas through a tiny hole in a container.
Key Idea: Gases of lower molar mass diffuse and effuse faster than gases of higher molar mass.
Diffusion is the tendency of molecules to move toward areas of lower concentration until the concentration is uniform throughout. Bromine vapor is diffusing upward through the air in a graduated cylinder After several hours, the bromine has diffused almost to the top of the cylinder.
Graham’s Law of Effusion v Graham’s Law states that the rate of effusion of a gas is inversely proportional to the square root of the gas’ molar mass. v This law can also be applied to the diffusion of gases.
A helium filled balloon will deflate sooner than an air-filled balloon.
Helium and air molecules pass freely through pores in the balloon. Helium atoms are less massive than oxygen or nitrogen molecules. At the same temperature (same kinetic energy): KE = ½ mv 2 m = mass, v = velocity For constant KE, an increase in mass must be balanced by a decrease in velocity. So air molecules (oxygen, nitrogen) move more slowly than helium atoms with the same kinetic energy.
Because the rate of effusion is related only to a particle’s speed, Graham’s law can be written as follows for two gases, A and B.
Helium effuses (and diffuses) nearly three times faster than nitrogen at the same temperature. Molar mass of N 2 = 28 g Molar mass of He = 4 g
1. What is the partial pressure of oxygen in a diving tank containing oxygen and helium if the total pressure is 800 k. Pa and the partial pressure of helium is 600 k. Pa? a. 200 k. Pa b. 0. 75 k. Pa c. 1. 40 x 104 k. Pa d. 1. 33 k. Pa
1. What is the partial pressure of oxygen in a diving tank containing oxygen and helium if the total pressure is 800 k. Pa and the partial pressure of helium is 600 k. Pa? a. 200 k. Pa b. 0. 75 k. Pa c. 1. 40 x 104 k. Pa d. 1. 33 k. Pa
2. A mixture of three gases exerts a pressure of 448 k. Pa, and the gases are present in the mole ratio 1 : 2 : 5. What are the individual gas pressures? a. 44 k. Pa, 88 k. Pa, and 316 k. Pa b. 52 k. Pa, 104 k. Pa, and 292 k. Pa c. 56 k. Pa, 112 k. Pa, and 280 k. Pa d. 84 k. Pa, 168 k. Pa, and 196 k. Pa
2. A mixture of three gases exerts a pressure of 448 k. Pa, and the gases are present in the mole ratio 1 : 2 : 5. What are the individual gas pressures? a. 44 k. Pa, 88 k. Pa, and 316 k. Pa b. 52 k. Pa, 104 k. Pa, and 292 k. Pa c. 56 k. Pa, 112 k. Pa, and 280 k. Pa d. 84 k. Pa, 168 k. Pa, and 196 k. Pa
3. Choose the correct words for the spaces. Graham's Law says that the rate of diffusion of a gas is _____ proportional to the square root of its _____ mass. a. directly, atomic b. inversely, atomic c. inversely, molar d. directly, molar
3. Choose the correct words for the spaces. Graham's Law says that the rate of diffusion of a gas is _____ proportional to the square root of its _____ mass. a. directly, atomic b. inversely, atomic c. inversely, molar d. directly, molar
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