Mix it Up: Combining Liquids of Different Temperature



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Activity 7 Mix it Up: Combining Liquids of Different Temperature Suppose that a hot drink and a cold drink are mixed together and you would like to predict the temperature of the mixture. To do this, you need to know the temperatures of the drinks before they are mixed, T 1 and T 2, and the volumes of each used in the mixture, V 1 and V 2. A visual representation of the problem is shown below, where T m represents the temperature of the mixture: T m T 1 T 2 Translated into mathematical symbols, we have V 1 V 2 V 1 + V 2 ( V ) T m + 1V 1 + T2V 2 = T 1 V2 In this activity you will use the concepts described above to predict the resulting temperature when two solutions of different temperatures are mixed. The data needed to perform these calculations will be collected using a pair of Temperature Probes. OBJECTIVES Record temperatures of water samples before and after mixing. Compare the mixing temperatures to a linear prediction. MATERIALS TI-84 Plus or TI-84 Plus graphing calculator EasyData application EasyTemp or Temperature Probe and data-collection interface graduated measuring cup (in ml) styrofoam cups or coffee mugs hot and cold water Real-World Math Made Easy 2005 Texas Instruments Incorporated 7-1

Activity 7 PROCEDURE 1. Turn on the calculator. Connect the Temperature Probe to the calculator. (This may require the use of a data-collection interface.) 2. Set up EasyData to record temperature data in single points. This data-collection mode will return an average temperature reading for 10 seconds when commanded. a. Start the EasyData application, if it is not already running. b. Select from the Main screen, and then select New to reset the application. c. Select from the Main screen, and then select Single Point. 3. To test the expression TV T V = Tm ( V + ) 1 1 + 2 2 1 V2, you will record the temperature of water in two cups and then find the temperature when the contents of the cups are mixed together. Label one cup or mug as Cup 1 and the other as Cup 2. 4. Fill Cup 1 with 100 ml of cold water (about 10 ºC) and Cup 2 with 150 ml of hot water (about 50 ºC). Do not put any ice in the cold water cup. 5. Put the Temperature Probe in Cup 1. Observe the temperature reading on the Main screen. When the readings are stable (0.1-level fluctuations are acceptable) select from the Main screen. After ten seconds the averaged temperature reading will be displayed. Record the averaged temperature reading in the Data Table on the Data Collection and Analysis sheet. 6. Select to return to the Main screen. 7. Put the Temperature Probe in Cup 2. Observe the temperature readings on the Main screen. When the readings are stable (0.1-level fluctuations are acceptable) select from the Main screen. After ten seconds the averaged temperature reading will be displayed. Record the averaged temperature reading in the Data Table on the Data Collection and Analysis sheet. 7-2 2005 Texas Instruments Incorporated Real-World Math Made Easy

Mix it Up 8. Select to return to the Main screen. 9. Mix the water. Work quickly through the next steps. a. Quickly pour the contents of Cup 1 into Cup 2, keeping the Temperature Probe in Cup 2. b. Watch the temperature reading on the Main screen. When it stops changing rapidly, select to make a ten-second measurement. Record the averaged value in the Data Table on the Data Collection and Analysis sheet. c. Remove the probe from the water, and discard the water. 10. Select to return to the Main screen. Exit EasyData by selecting from the Main screen and then selecting. ANALYSIS Answer Questions 1 7 on the Data Collection and Analysis sheet. EXTENSION Repeat the activity, this time starting with equal amounts of water in Cup 1 and Cup 2. Summarize the volumes used and temperatures measured in a data table. Based on your explanation in Question 7, how might you predict the mixture temperature, given that Cup 1 and Cup 2 contained equal volumes and knowing the temperatures T 1 and T 2? Is your prediction consistent with the measured mixture value? Real-World Math Made Easy 2005 Texas Instruments Incorporated 7-3

Activity 7 DATA COLLECTION AND ANALYSIS Name Date DATA TABLE Volumes Used (in ml) Temperatures Measured (in o C) Cup 1 (V 1 ) Cup 1 (T 1 ) Cup 2 (V 2 ) Cup 2 (T 2 ) Mixture (T m ) QUESTIONS 1. Consider the equation TV T V = Tm ( V + ) 1 1 + 2 2 1 V2 related volumes and temperatures for mixed solutions. Solve this equation for the mixture temperature T m. 2. Use this result, along with the values for the initial temperatures and volumes for the water samples, to predict the temperature of the mixture. 3. How does this value compare to the measured value of T m listed in the Data Table? What might have caused the difference between the calculated and measured mixture temperature values? 4. What is the average of the cold and warm water temperatures, T 1, and T 2, used in this activity? Calculate this value and record it below: 7-4 2005 Texas Instruments Incorporated Real-World Math Made Easy

Mix it Up 5. Suppose that you wish to repeat this activity under identical conditions, this time adding exactly the right amount of warm water to Cup 1 so that the mixture temperature, T m, equals the average temperature value recorded above. Should more or less warm water be added to Cup 1 for this trial compared to the amount you used in the original trial? Why? 6. Exactly what volume of warm water, V 2, should be added to Cup 1 so that the mixture temperature equals the average of T 1 and T 2? Hint: To do this, you will need to solve the mixture equation for V 2. 7. How does the value of V 2 found in Question 6 compare to the Cup 1 water volume, V 1? Why does using equal volumes of water ensure that the mixture temperature will be the average of the cold and warm water temperatures? Justify your answer algebraically. Hint: Let V 1 = V 2. Real-World Math Made Easy 2005 Texas Instruments Incorporated 7-5

Activity 7 APPLICATIONS 1. The directions on a box of instant cocoa tell you to prepare the drink by adding 150 ml of hot water to the package contents. What amounts of cold water (8 ºC) and boiling water (100 ºC) should be combined to add 150 ml of 68 ºC water to the cocoa mix? 2. Suppose the thermostat of your school s swimming pool malfunctions, causing the water temperature to climb to 34 ºC. The recommended temperature for competition is 25 ºC. If the pool holds 750,000 liters of water, how many liters must be drained from the pool and replaced with tap water (6 ºC) to make it ready for competition? 3. Some types of mixture problems involve combining solutions made up of different percentages of a substance in order to get a mixture with the desired percentage of that substance. The method is the same as that used in the activity you just completed. Solve the following mixture problem. Solution A is 5% acid. Solution B is 17% acid. A chemist wants to mix the two to get 500 ml of a solution that is 12% acid. How much of each should be used? 7-6 2005 Texas Instruments Incorporated Real-World Math Made Easy

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