Chapter 11 Preview Multiple Choice Short Answer Extended Response

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Chapter 11 Preview Multiple Choice Short Answer Extended Response Standardized Test Preparation Chapter 11 Preview Multiple Choice Short Answer Extended Response

Chapter 11 Multiple Choice 1. Pressure can be measured in A. grams. Standardized Test Preparation Chapter 11 Multiple Choice 1. Pressure can be measured in A. grams. B. meters. C. pascals. D. liters.

Chapter 11 Multiple Choice 1. Pressure can be measured in A. grams. Standardized Test Preparation Chapter 11 Multiple Choice 1. Pressure can be measured in A. grams. B. meters. C. pascals. D. liters.

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 2. A sample of oxygen gas has a volume of 150 mL when its pressure is 0.923 atm. If the pressure is increased to 0.987 atm and the temperature remains constant, what will the new volume be? A. 140 mL B. 160 mL C. 200 mL D. 240 mL

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 2. A sample of oxygen gas has a volume of 150 mL when its pressure is 0.923 atm. If the pressure is increased to 0.987 atm and the temperature remains constant, what will the new volume be? A. 140 mL B. 160 mL C. 200 mL D. 240 mL

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 3. What is the pressure exerted by a 0.500 mol sample of nitrogen in a 10.0 L container at 20°C? A. 1.2 kPa B. 10 kPa C. 0.10 kPa D. 120 kPa

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 3. What is the pressure exerted by a 0.500 mol sample of nitrogen in a 10.0 L container at 20°C? A. 1.2 kPa B. 10 kPa C. 0.10 kPa D. 120 kPa

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 4. A sample of gas in a closed container at a temperature of 100.0°C and 3.0 atm is heated to 300.0°C. What is the pressure of the gas at the higher temperature? A. 35 atm B. 4.6 atm C. 59 atm D. 9.0 atm

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 4. A sample of gas in a closed container at a temperature of 100.0°C and 3.0 atm is heated to 300.0°C. What is the pressure of the gas at the higher temperature? A. 35 atm B. 4.6 atm C. 59 atm D. 9.0 atm

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 5. An unknown gas effuses twice as fast as CH4. What is the molar mass of the gas? A. 64 g/mol B. 32 g/mol C. 8 g/mol D. 4 g/mol

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 5. An unknown gas effuses twice as fast as CH4. What is the molar mass of the gas? A. 64 g/mol B. 32 g/mol C. 8 g/mol D. 4 g/mol

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 6. If 3 L N2 and 3 L H2 are mixed and react according to the equation below, how many liters of unreacted gas remain? Assume temperature and pressure remain constant. N2(g) + 3H2(g) → 2NH3(g) A. 4 L B. 3 L C. 2 L D. 1 L

Chapter 11 Multiple Choice Standardized Test Preparation Chapter 11 Multiple Choice 6. If 3 L N2 and 3 L H2 are mixed and react according to the equation below, how many liters of unreacted gas remain? Assume temperature and pressure remain constant. N2(g) + 3H2(g) → 2NH3(g) A. 4 L B. 3 L C. 2 L D. 1 L

Chapter 11 Multiple Choice 7. Avogadro’s law states that Standardized Test Preparation Chapter 11 Multiple Choice 7. Avogadro’s law states that A. equal numbers of moles of gases at the same conditions occupy equal volumes, regardless of the identity of the gases. B. at constant pressure, gas volume is directly proportional to absolute temperature. C. the volume of a gas is inversely proportional to its amount in moles. D. at constant temperature, gas volume is inversely proportional to pressure.

Chapter 11 Multiple Choice 7. Avogadro’s law states that Standardized Test Preparation Chapter 11 Multiple Choice 7. Avogadro’s law states that A. equal numbers of moles of gases at the same conditions occupy equal volumes, regardless of the identity of the gases. B. at constant pressure, gas volume is directly proportional to absolute temperature. C. the volume of a gas is inversely proportional to its amount in moles. D. at constant temperature, gas volume is inversely proportional to pressure.

Standardized Test Preparation Chapter 11 Short Answer 8. Give a molecular explanation for the observation that the pressure of a gas increases when the gas volume is decreased.

Standardized Test Preparation Chapter 11 Short Answer 8. Give a molecular explanation for the observation that the pressure of a gas increases when the gas volume is decreased. Answer: The molecules are closer together, so they strike the walls of the container more often.

Standardized Test Preparation Chapter 11 Short Answer 9. The graph on the next slide shows a plot of volume versus pressure for a particular gas sample at constant pressure. Answer the following questions by referring to the graph. No calculation is necessary. What is the volume of this gas sample at standard pressure? b. What is the volume of this gas sample at 4.0 atm pressure? c. At what pressure would this gas sample occupy a volume of 5.0 L?

Standardized Test Preparation Chapter 11 Short Answer 9. continued

Chapter 11 Short Answer 9. continued Answer: a. 2.0 L b. 0.5 L Standardized Test Preparation Chapter 11 Short Answer 9. continued Answer: a. 2.0 L b. 0.5 L c. 0.4 atm

Chapter 11 Extended Response Standardized Test Preparation Chapter 11 Extended Response 10. Refer to the plot in question 9. Suppose the same gas sample were heated to a higher temperature and a new graph of V versus P were plotted. Would the new plot be identical to this one? If not, how would it differ?

Chapter 11 Extended Response Standardized Test Preparation Chapter 11 Extended Response 10. Refer to the plot in question 9. Suppose the same gas sample were heated to a higher temperature and a new graph of V versus P were plotted. Would the new plot be identical to this one? If not, how would it differ? Answer: The plot would not be identical to this one. It would have a similar shape, but would appear higher on the graph. This is because at any pressure, the volume would be higher at the higher temperature.