Lecture Handout 5: Gases (Online Text Chapter 6)
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1 Lecture Handout 5: Gases (Online Text Chapter 6) I. The Structure of a Gas A. Gases are composed of particles that are flying around very fast in their container(s). 1. The particles travel in straight lines until they encounter either the container wall or another particle; then they bounce off. 2. There is a lot of empty space between particles. 224 B. As the gas particles move and strike a surface, they push on that surface 1. If we could measure the total amount of force exerted by gas molecules hitting a surface at any one instant, we would know the pressure the gas is exerting. 225
2 II. Measuring Air Pressure A. We measure the effect of particle collisions with the walls of the container or on a surface. B. We measure air pressure with a barometer. 226 C. What would happen if the column of mercury were replaced by a column of water? 227
3 D. What happens to the height of the column of mercury in a mercury barometer as you climb to the top of a mountain? 228 E. Units of Pressure 229
4 F. Ex: A high-performance bicycle tire has a pressure of 132 psi. What is the pressure in mmhg? G. Ex: Convert 45.5 psi into kpa 230 H. Manometers 1. Manometers are U-shaped tubes, partially filled with a liquid, connected to the gas sample on one side and open to the air on the other. 2. Two types: Open ended manometer is open to the atmosphere and measures the pressure difference between a the pressure of a gas and atmospheric pressure. 231
5 III. Gas Laws A. Boyle s Law 1. Experiment Data 233
6 Boyle s Law: Molecular View a. Pressure is caused by the molecules striking the sides of the container. 235
7 4. Ex: A cylinder with a movable piston has a volume of 7.25 L at 4.52 atm. What is the volume at 1.21 atm? Ex: A balloon is put in a bell jar and the pressure is reduced from 782 torr to atm. If the volume of the balloon is now 2.78 x 10 3 ml, what was it originally? 237
8 B. Charles Law 1. Experiment 238 B. Charles Law 2. Data Height of an Air Bubble vs. Temperature Height of Gas Bubble (mm) y = 0.158x R² = T ( C) 239
9 B. Charles Law 3. Data: different axes Height of an Air Bubble vs. Temperature 60 Height of Gas Bubble (mm) y = 0.158x R² = T ( C) Ex: A gas has a volume of 2.57 L at 0.00 C. What was the temperature at 2.80 L? 241
10 5. Ex: The temperature inside a balloon is raised from 25.0 C to C. If the volume of cold air was 10.0 L, what is the volume of hot air? Combined Gas Law 243
11 C. Ideal Gas Law 1. By combining the gas laws we can write a general equation 2. n is the number of moles of gas 3. R is called the gas constant 4. When P is in atm and V is in Liters: R = L atm mol K Ex: How many moles of gas are in a basketball with total pressure 24.3 psi, volume of 3.24 L at 25 C? 245
12 D. Standard Conditions 1. Because the volume of a gas varies with pressure and temperature, chemists have agreed on a set of conditions to report our measurements so that comparison is easy we call these standard conditions: 2. STP = Standard Temperature and Pressure: Ex: What volume will 1.00 mol of O 2 occupy at 1.00 atm and 273 K? 247
13 4. Ex: A gas occupies 10.0 L at 44.1 psi and 27 C. What volume will it occupy at 1.00 atm and 273 K? Ex: Calculate the volume occupied by 637 g of SO 2 (MM 64.07) at 6.08 x 10 4 mmhg and 23 C. 249
14 E. Mixtures of Gases 1. When gases are mixed together, their molecules behave independently of each other a. all the gases in the mixture have the same volume all completely fill the container b. all gases in the mixture are at the same temperature Therefore, in certain applications, the mixture can be thought of as one gas 251
15 3. Dalton s Law of Partial Pressures a. The pressure of a single gas in a mixture of gases is called its partial pressure. b. The sum of the partial pressures of all the gases in the mixture equals the total pressure: 252 c. The partial pressure of any one gas, P A, is equal to its mole fraction, χ A, times the total pressure: 253
16 4. Ex: Determine the mass of Ar in a mixture of He, Ne and Ar with: P He =341 mmhg, P Ne = 112 mmhg, P T = 662 mmhg, V = 1.00 L, T = 298 K Ex: Find the partial pressure of neon in a mixture with total pressure 3.9 atm, volume = 8.7 L, temperature = 598 K, and 0.17 moles Xe. 255
17 6. Ex: Find the mole fractions and partial pressures in a 12.5 L tank with 24.2 g He and 4.32 g O 2 at 298 K Ex: Find the mole fraction of neon in a mixture with total pressure 3.9 atm, volume 8.7 L, temperature 598 K, and 0.17 moles Xe. 257
18 IV. Collecting A Gas A. Mostly done in lab over water. 1. Ex: Zn(s) + 2 HCl(aq) H 2 (g) + ZnCl 2 (aq) The partial pressure of the water vapor, called the vapor pressure, depends only on the temperature. 259
19 3. Ex: 1.02 L of O 2 collected over water at 293 K with a total pressure of mmhg. Find the mass of O Ex: 0.12 moles of H 2 is collected over water in a 10.0 L container at 323 K. Find the total pressure. 261
20 V. Gas Problems with Stoichiometry A. The ideal gas law allows us to convert from the volume of the gas to moles: then we can use the coefficients in the equation as a mole ratio P, V, T of Gas A mole A mole B P, V, T of Gas B Ex: What volume of H 2 is needed to make 35.7 g of CH 3 OH at 738 mmhg and 355 K? CO(g) + 2 H 2 (g) CH 3 OH(g) 263
21 2. Ex: How many grams of H 2 O form when 1.24 L H 2 reacts completely with O 2 at 1.00 atm and 273 K? O 2 (g) + 2 H 2 (g) 2 H 2 O(g) Ex: What volume of O 2 at atm and 313 K is generated by the thermolysis of 10.0 g of HgO? 2 HgO(s) 2 Hg(l) + O 2 (g) 265
22 V. The Kinetic Molecular Theory of Ideal Gases A. Gases are composed of particles that are flying around very fast in their container(s). B. The size of a particle is negligible compared to the volume of the gas C. The collision of one particle with another (or with the walls of the container) is elastic. 267
23 D. The average kinetic energy of a particle is proportional to the temperature in Kelvin Gas particles have a distribution of Kinetic Energy values called the Boltzmann Distribution that is the same for all particles at the same temperature. 269
24 5. But all gases have different masses and therefore different velocities even at the same temperature Ex: Draw a Boltzmann Distribution using molecular speed on the x-axis for methane at T = 300 K and at T = 500 K. 271
25 7. Ex: Draw a Boltzmann Distribution using molecular speed on the x-axis for methane and neon at the same temperature. 272 VI. Diffusion and Effusion A. The process of a collection of molecules spreading out from high concentration to low concentration is called. 273
26 B. The process by which a collection of molecules escapes through a small hole into a vacuum is called. 274 C. Diffusion and effusion both occur more rapidly for molecules with higher velocities. D. Ex: Which will diffuse more rapidly: oxygen gas or argon gas? 275
27 VII. Real Gases A. At STP, most gases are pretty close to ideal: 1. Ideal gas law assumes 276 B. At low temperatures and high pressures, gases act less ideal. 1. At low temperatures, the speed of the particles is lower. 2. At high pressures, the particles are forced closer together so that IMF are more important. 277
B. As the gas particles move and strike a surface, they push on that surface 1. If we could measure the total amount of force exerted by gas
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