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Temperature time graph specific heat capacity

15/11/2021 Client: muhammad11 Deadline: 2 Day

Student Exploration: Calorimetry Lab

Vocabulary: calorie, calorimeter, joule, specific heat capacity

Prior Knowledge Questions (Do these BEFORE using the Gizmo.)

1. The Latin word calor means “heat,” and meter comes from the Greek word meaning “to measure.” What do you think a calorimeter does? A calorimeter allows you to measure physical properties of materials such as specific heat or heat of fusion.

2. Where have you heard the word calorie before? What do you think a calorie is? I hear it all the time because my mom is always talking about calorie all the time. A calorie is a unit of energy. In nutrition and everyday language, calories refer to energy consumption through eating and drinking and energy usage through physical activity. For example, an apple may have 80 calories, while a 1 mile walk may use up about 100 calories.

image6.jpg

Gizmo Warm-up

A calorimeter is an insulated container filled with a liquid, usually water. When a hot object is placed in the calorimeter, heat energy is transferred from the object to the water and the water heats up.

Calorimeters can be used to find a substance’s specific heat capacity. You will use the Calorimetry Lab Gizmo™ to determine the specific heat capacities of various substances.

1. On the SIMULATION pane, select Copper. Use the slider to set its Mass to 200 g. Set the Water mass to 200 g. Check that the Water temp is set to 30.0 °C and the copper’s Temp is 90 °C. Select the GRAPH tab, and click Play (image8.png).

A. What was the Final temperature of the copper and the water? 34.96*C

B. How much did the temperature of the copper change? ________________________

C. How much did the temperature of the water change? _________________________

2. Specific heat capacity can be described as a substance’s resistance to temperature changes. Which substance has a greater specific heat capacity, copper or water? Explain.

_________________________________________________________________________

_________________________________________________________________________

Activity A:

Heat transfer

Get the Gizmo ready:

· Click Reset (image2.jpg).

image3.jpg

Question: What factors determine how heat energy transfers between objects?

1. Predict: In the Gizmo warm-up, you saw how 200 g of 90 °C copper transfers heat to 200 g of 30.0 °C water.

A. How do you think increasing the water’s mass would affect the final temperature?

Heat capacity is a measurable physical quantity that characterizes the amount of heat that is required to change a body's temperature by a given amount. The larger the amount of water, the higher the heat capacity.

B. How do you think decreasing the copper’s mass would affect the final temperature? The amount of heat energy (q) gained or lost by a substance is equal to the mass of the substance (m) multiplied by its specific heat capacity (Cg) multiplied by the change in temperature (final temperature - initial temperature) q = m x Cg x (Tf - Ti)

C. How do you think increasing or decreasing the copper’s initial temperature would affect the final temperature? ____________________________________________

___________________________________________________________________

2. Collect data: Use the Gizmo to determine the final temperature for each set-up listed below. Record your results in the tables. In the first table, you experiment with changing the water’s mass. In the second table, you change the copper’s mass. In the third table, you change the initial temperature of the copper. The first row of each table has been completed for you.

Copper

Water

Final Temp. (°C)

Initial Temp. (°C)

Mass (g)

Initial Temp. (°C)

Mass (g)

90 °C

200 g

30.0 °C

200 g

34.96 °C

90 °C

200 g

30.0 °C

2,000 g

30.54*C

90 °C

200 g

30.0 °C

200 g

34.96 °C

90 °C

20 g

30.0 °C

200 g

30.54*C

90 °C

200 g

30.0 °C

200 g

34.96 °C

100 °C

200 g

30.0 °C

200 g

35.79*C

50 °C

200 g

30.0 °C

200 g

31.65*C

(Activity A continued on next page)

Activity A (continued from previous page)

3. Analyze: For each factor listed in the chart below, explain how the final temperature was changed and why you think that change occurred.

A. What was the effect of increasing the water’s mass? Increasing mass will increase the substance’s heat, but won’t affect its temperature since they are not reated.

B. What was the effect of decreasing the copper’s mass? Corrosion of copper-based alloys is influenced by different factors; temperature oxygen concentration, chloride, sulfate, organics. Etc.

C. What was the effect of changing the initial temperature of the copper? ___________

___________________________________________________________________

___________________________________________________________________

4. Draw conclusions: The amount that the water’s temperature increases depends on the mass of the water and the amount of heat energy in the copper.

A. How does changing the initial mass of the copper affect how much heat energy it has? The amount of heat energy (q) gained or lost by a substance is equal to the mass of the substance (m) multiplied by its specific heat capacity (Cg) multiplied by the change in temperature (final temperature - initial temperature) q = m x Cg x (Tf - Ti)

B. How does changing the initial temperature of the copper affect how much heat energy it has? _______________________________________________________

___________________________________________________________________

5. Apply: Many gyms and health clubs have steam saunas, which are small steam-filled rooms. Traditionally, steam saunas have a container of heated rocks. A small ladle of water is poured on the rocks in order to make the steam.

A. Use what you have learned so far about heat transfer to explain how hot rocks can be used to make steam? As air becomes more humid, it transfers heat more efficiently. If you had a sauna stove that was large enough to immediately vaporize a bucket full of water, you could cause serious burns to your skin.

Why do you think only a small ladle-full of water is poured on the rocks at one time? The heat of vaporization of water is very high. With small amounts of water you can vaporize the water as it hits the rocks into steam. With larger amounts of water, the outside surface of the rocks will be cooled, and it will heat the water more slowly making the vaporization take place over a longer period of time.

Activity B:

Specific heat

Get the Gizmo ready:

· Click Reset.

· Deselect Copper, and select Granite.

image4.jpg

Question: How can you compare the specific heat capacities of various substances?

1. Explain: How do you think you can use the calorimeter to compare the specific heat capacities of the substances listed on the Gizmo? _________________________________

_________________________________________________________________________

_________________________________________________________________________

2. Predict: Which substance do you think will have the highest specific heat capacity? Why?

The specific heat capacity of a substance is the amount of heat required to raise the temp of a substance by 1 degree C. So the higher the heat capacity the less hot it gets. For example, metals have a low heat capacity and granite would have a relatively high one.

3. Experiment: Use the Gizmo to determine the final temperature for each set-up listed below. Record your results in the table. The first row has been completed for you.

Substance

Substance initial temp. (°C)

Substance mass

Water initial temp. (°C)

Water mass

Final temp. (°C)

Copper

90 °C

200 g

30.0 °C

200 g

34.96 °C

Granite

90 °C

200 g

30.0 °C

200 g

39.59*C

Lead

90 °C

200 g

30.0 °C

200 g

31.75*C

4. Analyze: Of the three substances, which caused the largest temperature change in the water? What does this indicate about its relative specific heat capacity? ________________

_________________________________________________________________________

5. Interpret: Remember that specific heat capacity is a measure of a substance’s resistance to temperature change. The more resistant a substance is to temperature change, the higher is its specific heat capacity.

Rank the three substances in order of their specific heat capacities, from highest to lowest.

_________________________________________________________________________

(Activity B continued on next page)

Activity B (continued from previous page)

6. Predict: How do you think the specific heat capacity of ice will compare to that of copper, granite, and lead? __________________________________________________________

_________________________________________________________________________

7. Experiment: Deselect Lead, and select Ice. Use the default values for Temp (-30 °C) and Mass (50 g). Set the Water temp to 60 °C and the Water mass to 200 g. Click Play.

A. What was the final temperature? _________________________________________

B. What do you think is happening when the ice line on the graph is at 0 °C for a long period of time? Why do you think the line disappears after that? ________________

___________________________________________________________________

C. How much of a temperature change did the water experience? _________________

D. How does this change in the water’s temperature compare to the change caused by the other substances you tested? ________________________________________

8. Extend your thinking: A lot of energy is needed to heat a substance with a high specific heat capacity. However, even more energy is needed to cause a phase change (such as the melting of ice). Click Reset. Set the ice’s Temp to -100 °C and its Mass to 50 g. Set the Water temp to 50 °C and Water mass to 200 g. Click Play.

A. What was the final temperature? _________________________________________

B. Do you think all the ice melted? Explain. ___________________________________

___________________________________________________________________

C. Look at the GRAPH. The graph shows two separate stages: the heating of the ice and then the melting of the ice. How much did the water’s temperature change while the ice was heating? How much did it change while the ice was melting?

___________________________________________________________________

___________________________________________________________________

D. How did this experiment demonstrate ice’s high specific heat capacity? __________

___________________________________________________________________

___________________________________________________________________

Activity C:

Calculating specific heat

Get the Gizmo ready:

· Click Reset.

image5.jpg

Introduction: The specific heat capacity of a substance is the amount of energy needed to change the temperature of that substance by 1 °C. Specific heat capacity can be calculated using the following equation:

q = mc∆T

In the equation q represents the amount of heat energy gained or lost (in joules), m is the mass of the substance (in grams), c is the specific heat capacity of the substance (in J/g °C), and ∆T is the temperature change of the substance (in °C).

Goal: Calculate the specific heat capacities of copper, granite, lead, and ice.

1. Solve: When you mix two substances, the heat gained by one substance is equal to the heat lost by the other substance. Suppose you place 125 g of aluminum in a calorimeter with 1,000 g of water. The water changes temperature by 2 °C and the aluminum changes temperature by –74.95 °C.

A. Water has a known specific heat capacity of 4.184 J/g °C. Use the specific heat equation to find out how much heat energy the water gained (q).

___________________________________________________________________

B. Assume that the heat energy gained by the water is equal to the heat energy lost by the aluminum. Use the specific heat equation to solve for the specific heat of aluminum. (Hint: Because heat energy is lost, the value of q is negative.)

___________________________________________________________________

Aluminum’s accepted specific heat value is 0.900 J/g °C. Use this value to check your work.

2. Calculate: Use the Gizmo to mix 200 g of copper at 100 °C with 1,000 g of water at 20 °C.

A. What is the final temperature? ___________________________________________

B. Calculate the temperature change of each substance by subtracting the initial temperature from the final temperature.

∆Twater: __________ ∆Tcopper: __________

C. How much heat energy (q) did the water gain? ______________________________

D. Now solve for the specific heat (c) of copper: _______________________________

(Activity C continued on next page)

Activity C (continued from previous page)

3. Calculate: Use the Gizmo to mix 200 g of granite at 100 °C with 1,000 g of water at 20 °C.

A. What is the final temperature? ___________________________________________

B. Calculate the temperature change of each substance by subtracting the initial temperature from the final temperature.

∆Twater: __________ ∆Tgranite: __________

C. How much heat energy (q) did the water gain? ______________________________

D. Now solve for the specific heat (c) of granite: _______________________________

E. Repeat steps A through D to find the specific heat (c) of lead: __________________

4. Challenge: Use the specific heat capacity that you calculated for granite to determine how many grams of granite at the initial temperature of 80 °C must mix with 3,000 g of water at the initial temperature of 20 °C to result in a final system temperature of 20.45 °C. (Hint: Start by calculating how much heat energy is needed to change the water’s temperature by 0.45 °C). Show your work. Use the Gizmo to check your answer.

Mass of granite = __________

5. Extend your thinking: In addition to calculating specific heat capacities, some calorimeters can be used to determine how much energy is in food. The energy in food is usually expressed in calories or kilocalories (Calories). A calorie is the amount of energy needed to change the temperature of 1 g of water by 1 C. There are 1,000 calories in a Calorie.

A. How many joules are in 1 calorie? (The specific heat of water is 4.184 J/g °C.) ___________________________________________________________________

B. Suppose a snack bar is burned in a calorimeter and heats 2,000 g water by 20 °C. How much heat energy was released? (Hint: Use the specific heat equation.) Give your answer in both joules and calories.

___________________________________________________________________

C. How many kilocalories (Calories) does the snack bar contain? __________________

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