Chapter 13 Gases. H. Cannon, C. Clapper and T. Guillot Klein High School. Pressure/Temperature Conversions

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1 Chapter 13 Gases Pressure/Temperature Conversions Convert the following: atm = kpa atm = mmhg mmhg = torr torr = kpa kpa = atm mmhg = kpa atm = kpa kpa = V mmhg kpa = torr mmhg = atm K = o C o C = K o C = K K = o C o C = K K = o C o C = K o C K K = o C K = o C H. Cannon, C. Clapper and T. Guillot Klein High School

2 Boyle/Charles/Gay-Lussac Exercise 1. What is the pressure of 25.0 ml of a gas if its original volume was 36.0 ml at mm of Hg? 2. A gas collected at mm of Hg has a volume of 31.0 L. if the volume decreases to 28.0 L, what is the pressure of the gas? 3. A sample of gas is heated at constant pressure from 1.00 o C to 4.00 o C. Will the volume increase to four times its original volume? 4. Calculate the final volume at 71.0 o C of a 4.01 L sample of gas that is originally at 23.0 o C, assuming that the pressure does not change. 5. A light contains neon at a pressure of 2.8 atm with a temperature of 23.0 o C. If the light is turned on and its temperature rises to 50.0 o C, what is the pressure of the neon? 6. A cylinder of oxygen has a pressure of mm of Hg and a temperature of 21.0 o C. To increase the pressure to kpa, to what must you change the temperature? 7. Calculate the final pressure of a sample of gas that is expanded to 1.73 L at constant temperature from 1.50 L at torr. 8. A gas is held in a 100.0L tank at an unknown pressure. When the gas is released into another tank and held at 1.00 atm of pressure, the volume of the gas is 2,500.0L. What was the pressure of the gas in its original tank? 9. A sample of gas maintained at a constant pressure is found to have a volume of 3.5 L at 90.0 o C. If the system is heated to o C, what is the resulting volume? 10. A man heats a balloon in the oven (why, I do not know). If the balloon initially has a volume of liters and a temperature of 20.0 o C, what will the volume of the balloon be after he heats it to a temperature of o C? 11. A cylinder of oxygen has a pressure of mm of Hg and a temperature of 21.0 o C. To increase the pressure to kpa, to what must you change the temperature? 12. A 2.00 L sample of gas has a pressure of 1.00 atm. Calculate the volume after its pressure is increased to 1010 torr at constant temperature. 13-2

3 13. Calculate the volume of a sample of gas that is initially at 1.00 atm if its volume is increased to ml as its pressure is changed to 755 torr at constant temperature. 14. Calculate the initial volume at 344 K of a sample of gas that is changed to 2.93 L by cooling to 286 K at constant pressure. 15. The piston in my car allows it to run. If I want the gas in the piston cylinder to expand from 1.00 liter to 2.50 liters, how hot do I have to make it? Assume the initial temperature is K. 16. For the piston in problem 15, what temperature do I have to make the piston if I want the volume to be liters? 17. For the piston in problems 15 and 16, what will be the volume of the piston be if I increase the temperature to K? 18. A soda bottle is flexible enough that the volume of the bottle can change even without opening it. If you have an empty soda bottle (volume of 2.00 liters) at room temperature (25.00 C), what will the new volume be if you put it in your freezer (-4.00C)? 19. A container is filled with a gas at K with a pressure of 4.60 atm. If the container is heated to K, what is the new pressure of the gas? 20. Given a gas with a pressure of 209 kpa at 18.0 o C, what would the pressure change to if the temperature changes to 36.0 o C? 13-3

4 The Combined Gas Law - 1. Calculate the final pressure of a gas that is expanded from 1.50 L at 355 K and torr to 1.73 L at K. 2. Calculate the volume of a sample of gas originally occupying 505 ml at torr and 25.0 o C after its temperature and pressure are changed to 50.0 o C and 1.21 atm. 3. Calculate the original volume of a sample of gas that is at torr and 25.0 o C before its volume, temperature, and pressure are changed to 505 ml, 50.0 o C, and 1.21 atm. 4. A 4.00 L sample of gas originally at standard temperature and pressure is changed to 2.95 L at 2,020 torr. Calculate its final temperature in degrees Celsius. 5. Calculate the volume at standard temperature and pressure of a sample of gas that has a volume of 755 ml at 30.0 o C and torr. 6. Given 40.0 ml of nitrogen at 25.0 o C and mm pressure, calculate its volume at o C and mm pressure. 7. Give ml of CO 2 at 30.0 o C and mm pressure, what volume would it occupy at standard conditions? 8. Calculate the pressure required to compress 2.00 L of gas at 1.20 atm of pressure and 24.0 o C into a 0.25 L container at a temperature of o C? 9. A gas occupies 5.80 L at STP. To put the gas into a smaller L container at 4.00 atm of pressure, what must the temperature be changed to? 10. A ml balloon at K has a pressure of mm Hg. If you put the balloon into a refrigerator and the pressure goes down to 75.0 kpa at a volume of ml, what is the temperature inside the refrigerator? 13-4

5 11. If I initially have a gas at a pressure of 12.0 atm, a volume of 23.0 L, and a temperature of K, and I raise the pressure to 14.0 atm and increase the volume to 27.0 L, what is the new temperature of the gas? 12. A gas that has a volume of 28.0 L, a temperature of 45.0 o C, and an unknown pressure has its volume increased to 35.0 L and its temperature decreased to 35.0 o C. If I measure the pressure after the change to be 2.00 atm, what was the original pressure? 13. Calculate the pressure required to compress 32.0 L of a gas at 6.80 atm pressure and o C into a container of 1.5 L capacity at a temperature of o C. 14. Given 60.0 ml of gas at K and mm of pressure, calculate its volume at K and atm of pressure. 15. Given 88.0 L of carbon dioxide at K and mm of pressure, what is the temperature of the gas if its volume changes to 50.0 liters at 2.00 atm. 16. An automobile tire has a pressure of kpa at 20.0 o C. What will be the tire pressure after driving, if the tire temperature rises to 35.0 o C? 17. A tank for compressed gas has a maximum safe pressure limit of 825 kpa. The pressure gauge reads 388 kpa when the temperature is 24.0 o C. What is the highest temperature the tank can withstand safely? 18. Maintaining constant pressure, the volume of a gas is increased from 15.0 L to 30.0 L by heating it. If the original temperature was 20.0 o C, what is the new temperature (in degrees Celsius)? 19. In your car's engine, a cylinder has a volume of cm 3 at the time fuel is injected into it. The gas has a temperature of 32.0 o C and a pressure of 92.0 kpa. At the time of firing, the cylinder volume has changed to 49.4 cm 3 and the gas is at a temperature of o C. What is the pressure of the gas at that time? 20. A. balloon will burst at a volume of 2.00 dm 3. If the gas in a partially filled balloon occupies dm 3 at a temperature of 21.0 o C and a pressure of 99.0 kpa, what is the temperature at which it will burst if the pressure is 101 kpa? 13-5

6 Dalton s Law of Partial Pressures 1. A mixture of oxygen and nitrogen contains oxygen at a pressure of torr and nitrogen at a pressure of torr. What is the pressure of the system? 2. A mixture of oxygen and nitrogen has a barometric pressure of 1.02 atm. If the pressure of the oxygen is atm, what is the pressure of the nitrogen? 3. A gaseous mixture contains moles of H 2, mole of N 2, and mole of Ne. The total pressure of the mixture is 1.33 atm. What is the partial pressure of each gas? 4. Calculate the total number of moles in a 4.00 L sample of gas at K, containing O 2 at atm and N 2 at atm. Also calculate the number of moles of O 2 present. 5. Oxygen gas is collected over water at a barometric pressure of 775 torr and 25.0 o C. What is the pressure of the water vapor? What is the pressure of the oxygen gas? 6. Oxygen gas is standing over water at a total pressure torr. The partial pressure of the oxygen is found to be torr. Determine the temperature of the system. 7. Calculate the partial pressure in millimeters of mercury exerted by the four main gases in air at mm Hg: nitrogen, oxygen, argon, and carbon dioxide. Their abundance by volume is 78.08%, 20.95%, 0.934%, and 0.035%, respectively. 8. What volume will 2.00 g of O 2 occupy when collected over water at 25.0 o C and 1.00 atm barometric pressure. 9. A student has stored ml of neon gas over water on a day when the temperature is 27.0 o C. If the barometer in the room ready mm Hg, what is the pressure of the neon gas in its container? 10. Determine the partial pressure of oxygen collected by water displacement if the water temperature is 20.0 o C and the total pressure of the gases in the collection bottle is torr. 13-6

7 Temperature C Vapor Pressure of Water Pressure kpa Temperature C Pressure kpa

8 Molar Mass Of A Gas 1. Calculate the volume that 2.68 g of oxygen gas occupies at standard temperature and pressure. 2. Calculate the volume that 3.26 mols of N 2 occupies at 0 o C and 1.00 atm. 3. What volume will g of SO 2 gas occupy at STP conditions? 4. Compute the mass of one liter of ammonia gas at 0 o C and a pressure of kpa. 5. Calculate the mass of 4.00 liter of N 2 O at 273K and a pressure of mmhg. 6. Calculate the number of liters occupied by mole of F 2 at STP. 7. Calculate the molecular mass of a gas with a density of 1.65 g/l at STP. 8. Calculate the density at STP of ammonia gas. 9. Calculate the density at STP of chlorine gas. 13-8

9 The Ideal Gas Law 1. Determine the number of moles of gas in a volume of 1.50 L at 355 K and mmhg. 2. Determine the volume of mole of O 2 at 35.0 o C and 792 mmhg. 3. Determine the pressure of mole of CO 2 gas with a volume of 1.50 L at 285 K. 4. Determine the number of moles of gas in a volume of 1.33 L at 355 K and 1.12 atm. 5. Determine the temperature of a gas if 1.45 moles occupies 10.7 L at atm. Is the gas more likely to be Ne or H 2 O? Explain. 6. Calculate the volume of 2.00 mole of carbon dioxide gas at 373 K and 1.00 atm. 7. Calculate the volume of 1.50 mole of methane gas at K and atm. 8. Calculate the volume of 2.00 mole of oxygen gas at 30.0 o C and 755 torr. 9. Calculate the volume of 50.0 g of oxygen gas at 50.0 o C and torr. 10. Calculate the volume of 2.00 mole of gas at o C and 785 torr. 11. Calculate the pressure of 22.0 g of oxygen gas that occupies 16.4 L at 16.0 o C. 12. Calculate the number of moles of oxygen gas in a 3.00 L container at 44.0 o C and 768 mmhg. 13-9

10 Ideal Gas Law - Exercise 2 1. A 5.00 liter flask, at 25.0 o C contains a mole of Cl 2. What is the pressure in the flask? 2. What volume will 12.0 g of oxygen occupy at 15.0 o C and a pressure of atm? 3. What pressure will be exerted by mole of a gas at 25.0 o C if it is contained in a vessel whose volume is L? 4. How many moles of H 2 are present in a 2.70 L cylinder if the pressure is 2.10 atm and the temperature is 45.0 o C? 5. Determine the molecular weight of a gas if ml weigh 1.90 g at STP. 6. The density of a gas is g/l at STP. Find the mass of 6.40 L of the gas at a temperature of 21.0 o C and a pressure of 762 mm of Hg. 7. The density of a gas is g/l at STP. Find the mass of 2.80 L of the gas at a temperature of 18.0 o C and mm Hg pressure. 8. Calculate the pressure of a gas at 14.0 o C if its volume does not change and its original temperature was 6.80 o C with a pressure of 1.00 kpa. 9. Determine the molecular weight of a gas if ml weighs 1.10 g at STP. 10. Determine the volume occupied by 16.0 moles of a gas at 13.0 o C and 1.90 kpa

11 11. What is the pressure of 15.0 ml of a gas if its original volume was 26.0 ml at mm of Hg (temperature remains constant)? 12. A gas collected at 48.0 o C has a volume of 31.0 L. If the volume decreased to 29.0 L and pressure remains constant, what is the temperature of the gas (in degrees Celsius)? 13. Given 60.0 ml of a gas at K and mm of pressure, calculate its volume at 80.0 o C and atm of pressure. 14. Calculate the pressure of a gas at 29.0 o C if its volume does not change and its original temperature was 26.8 o C with a pressure of 2.20 kpa. 15. Determine the molecular weight of a gas if ml weigh g at STP. 16. Determine the volume occupied by 1.30 moles of a gas at 23 o C and 1.26 kpa. 17. What pressure must be applied to contain grams of sulfur dioxide in a 456 ml container at 105 C? 18. Compute the number of grams of oxygen that are contained in a 10.5 liter container at 30.0 C under mmhg of pressure. 19. How many moles of hydrogen gas are present in a 50.0 L steel cylinder at 10.0 atm of pressure and 27.0 C? 20. What volume will be occupied by grams of chlorine gas at atm of pressure and 12.5 C? 13-11

12 Density of A Gas and Molecular Weight of a Gas 1. The density of a gas is 1.90 g/l at STP. Find the mass of 1.30 L of the gas at a temperature of 8.00 o C and mm Hg pressure. 2. Determine the molecular weight of a gas if ml weigh 8.00 g at STP. 3. The density of a gas is 2.90 g/l at STP. Find the mass of 21.2 L of the gas at a temperature of 28.0 o C and mm Hg pressure. 4. Determine the molecular weight of a gas if 8.20 x 10-3 g at STP has a volume of 102 ml. 5. A balloon is filled with 1.00 g of a gas at STP. What is the molecular weight of the gas if its volume if 1.10 L? 6. A cylinder contains a gas at 21.0 atm of pressure. The volume of the cylinder is 20.0 L. If the gas has a density of 1.30 g/l, what would its weight be. The temperature of the gas is 23.0 o C. 7. The density of phosphorous triflouride is 3.90 g/cm 3. What is the molecular mass of this gas at STP? 8. What is the density of hydrosulfuric acid at 20.0 C and mmhg of pressure? 9. Compute the density of methane (CH 4 ) at 20.0 C and 5.00 atm

13 Reactions At Standard Conditions 1. Calculate the number of liters of hydrogen gas at STP that could be produced by the reaction of 6.90 g of magnesium. Mg + 2HCl ---> MgCl 2 + H 2 2. How many grams of H 2 SO 4 must react with Fe to form 5.00 liters of H 2 at STP? Fe + H 2 SO 4 ---> FeSO 4 + H 2 3. How much H 2 F 2 will be produced from 37.0 g of fluorine gas at STP? H 2 + F 2 ---> H 2 F 2 4. How many liters of oxygen, measured at STP, must be present to react with 75.0 liters of nitrogen oxide? 2NO + O 2 ---> 2NO 2 5. How many liters of NO 2 will be produced from 50.0 liters of nitrogen oxide at STP? 2NO + O 2 ---> 2NO 2 6. How many liters of oxygen will react with 10.0 liters of H 2 at STP? 2H 2 + O 2 ---> 2H 2 O 13-13

14 Reactions at Standard Conditions - Exercise 2 1. If an electric discharge produced 20.0 liters of O 3, how many grams of oxygen are required? O 2 O 3 2. If 40.0 g of H 3 PO 4 react with magnesium carbonate, calculate the volume of carbon dioxide produced at STP. H 3 PO 4 + MgCO 3 Mg 3 (PO 4 ) 2 + CO 2 + H 2 O 3. Calcium carbide (CaC 2 ) reacts with water to produce calcium hydroxide and C 2 H 2. What volume of the gas at STP could be produced from the reaction of 50.0 g of calcium carbide? 4. How many grams of sodium hydrogen carbonate must be decomposed to produce 45.0 liters of carbon dioxide? The other products are water and sodium oxide. 5. If 3.20 g of aluminum react with excess hydrogen chloride, how many liters of hydrogen are produced at STP? 6. In a reaction involving carbon monoxide and iron (III) oxide, the products are iron and carbon dioxide. If liters of carbon dioxide gas are produced, how many milliliters of carbon monoxide gas are required at STP? 7. Iron combines with oxygen to form iron (III) oxide. If g of iron are used, how many liters, at STP, of oxygen is needed? 8. Ammonia combines with oxygen to form nitrogen monoxide and water. If g of ammonia is used, how many liters of nitrogen monoxide are produced at STP? 13-14

15 9. Dinitrogen trioxide combines with water to form hydrogen nitrite. If 1450 liters of dinitrogen trioxide is used, how many grams of water is needed for the reaction at STP? g of aluminum is used in a reaction along with nitrogen. Calculate the number of liters of nitrogen needed to complete the reaction at STP. 11. What volume will 21.7 g of CO2 gas occupy at STP? 12. How many moles of fluorine gas can or will be derived from ml of the gas when at STP? 13. C 4 H 10 burns completely to form carbon dioxide and water. If liters of butane are used, what volume of oxygen, at STP, must combine with it? 14. What mass of calcium hydroxide is required to react with liters of carbon dioxide to form calcium carbonate and water? 13-15

16 Stoichiometry - Nonstandard Conditions - Bonus 1. Butane, C 4 H 10, burns completely to form carbon dioxide and water. If liters of butane are used, what volume of oxygen must combine with it? 2. In the reaction Fe 2 O 3 + 3CO 3CO 2 + 3Fe, how many liters of carbon monoxide are needed to form liters of carbon dioxide? 3. What weight of calcium hydroxide is required to react with liters of carbon dioxide to form calcium carbonate and water? 4. What volume of hydrogen at standard conditions will be produced from the electrolysis of 288 g of water? 5. Aluminum reacts with sodium hydroxide to form sodium aluminate, Na 3 AlO 3, and hydrogen gas. What weight of sodium aluminate is formed in the react which also produces 112 liters of hydrogen at STP? 13-16

17 Charles Law Investigation What is Absolute Zero? Background: Jacques Alexander Cesar Charles, in 1787 studied the effect of temperature change on the behavior of a gas. Charles reasoned that there was a direct relationship between the volume of a gas and the absolute temperature at a constant pressure. He stated that the volume of a fixed quantity of gas at constant pressure increases in a linear fashion with the absolute temperature. In developing a useful tool for predicting the behavior of gases, Charles was aided by Sir William Thompson, a Scottish nobleman whose title was Lord Kelvin. Kelvin, in 1848 proposed the idea of an absolute temperature scale that would eliminate the problems inherent in the current scales when the temperature fell below zero. Objective: To experimentally verify the value of absolute zero Determination of Volume Change due to Temperature: 1. Fill two 400-ml beaker half full with tap water. 2. Begin heating the water in one beaker to a temperature that is 10 C above room temperature. 3. Fill a thin stem pipette completely with room-temperature water. To make sure the pipette is filled, first draw in as much water as possible. Then, holding the pipette by the bulb with the stem pointing upward, squeeze the bulb slightly to eject any air left in the bulb and stem. Keeping this pressure on the bulb, insert the tip of the stem into the water. Release the pressure on the bulb, and the pipette will fill completely. 4. Dispense the water from the pipette, counting the total number of drops it takes to empty the pipette. (The number should be about 100 drops) 5. Stop heating the hot water beaker when the temperature has risen about 10 C above room temperature. 6. Holding the thin stem pipette by the stem, immerse the bulb in the warm water. 7. Hold the pipette in the warm water for a few minutes so that the air in the pipette reaches the temperature of the water. 8. Pinch the stem of the pipette to seal off the bulb. Place the bulb in the roomtemperature beaker of water. 9. Still pinching the stem, immerse the entire pipette, including the stem, in the water. Release the stem underwater. A small amount of water should be drawn up into the pipette. This water is equal in volume to the amount of gas lost when the pipette bulb was heated and the air inside it expanded (thus it represents the increase in volume of the air inside the pipette). 10. Remove the pipette from the water bath. Dry the outside of the pipette with a paper towel. Expel the water, counting the number of drops of water that were drawn into the pipette. 11. Add the number of drops (representing the increased volume of the air) to the initial (room-temperature) volume to get the new volume at this temperature

18 12. Dry the inside of the pipette by drawing in air and then releasing the bulb several times. 13. Repeat this process to record the volume change at five points relatively evenly spaced between 20 C and 75 C. Calculation of Absolute Zero: In science, graphing is an important tool used to determine the relationship between two variables. As described by Charles, there is a direct relationship between volume and temperature. We will show this relationship both graphically and mathematically as we extrapolate the data we collected to determine an experimental value for absolute zero. 1. Graph (on paper) your five data points. Draw a straight line through the points and extrapolate below the X-axis until the line intersects the Y-axis. This point will be your absolute zero (the temperature at which the volume becomes 0). 2. Check your value for absolute zero mathematically using a spreadsheet such as Microsoft Excel a. Enter your data into the spreadsheet b. Using the equation for a line, enter calculations to determine the slope of your line c. Using the equation for a line, enter calculations to determine where your line intersects the Y-axis. 1. Use your spreadsheet to graph your data and compare it to your hand drawn graph. 2. Choose the value for absolute zero that you feel is the best answer. 3. Calculate the percent error between your chosen value and actual absolute zero (0 K). 4. Percent error =( actual value experimental value /actual value) x 100 Notes: 1. Remember when you are working in Excel that you need only refer to the position of the data rather than the absolute numbers, thus the same formula will work for all data points. 2. Remember you guidelines for graphing and use them to verify your procedure a. Dependent (y axis temperature o C) vs. independent(x axis number of drops) variable b. Positive vs. negative slope use to predict if you are doing the graph correctly 3. Include the following with your lab report: a. Hand drawn graph b. Spreadsheet graph c. Spreadsheet printout showing calculations d. Percent error calculation 13-18

19 Molar Volume Lab Problem: Using the following reaction, determine the molar volume of hydrogen gas produced. Mg + 2HCl MgCl 2 + H 2 Procedure: Begin with a few centimeters of magnesium ribbon ( you must determine its mass). Obtain a collecting tube (eudiometer) from you instructor, who will add approximately 5.0 ml of HCl (12M). Fill the tube with water. Roll the magnesium into a small coil, secured with string, and push the coil into the tube with the thread extending. Invert the tube in a large beaker about half-filled with water. As the higher density HCl falls to the bottom of the tube the reaction will proceed. When the reaction is complete, measure the volume of hydrogen gas produced inside the tube in ml (this will be V 1 ). Record the temperature and barometric pressure in the room. CLEAN UP. Determine an accurate measurement of the volume of hydrogen produced and convert to STP using the following steps: 1. Correct the barometric pressure for the presence of water vapor 2. Convert the volume to STP Determine the number of moles of magnesium used in the reaction and use the stoichiometry of the reaction to determine the number of moles of hydrogen gas produced. Use your liters of gas and moles of gas produced to find the volume of one mole of hydrogen gas at STP. Calculate your percent error, compared to the standard molar volume of a gas. Mass of Mg g Volume of gas produced (V 1 ) ml Barometric pressure mmhg Temperature C Chapter

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