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Page 498, problems Page 500, questions 15-19

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Presentation on theme: "Page 498, problems Page 500, questions 15-19"— Presentation transcript:

1 Page 498, problems 12-13 Page 500, questions 15-19
Homework: Page 498, problems 12-13 Page 500, questions 15-19

2 12. If 335g of water at 65.5oC loses 9750J of heat, what is the final temperature of the water?

3 12. If 335g of water at 65.5oC loses 9750J of heat, what is the final temperature of the water?
q = cm∆T

4 12. If 335g of water at 65.5oC loses 9750J of heat, what is the final temperature of the water?
q = cm∆T ∆T = q / cm

5 12. If 335g of water at 65.5oC loses 9750J of heat, what is the final temperature of the water?
q = cm∆T ∆T = q / cm = 9750J / (4.184J/go)(335g)

6 12. If 335g of water at 65.5oC loses 9750J of heat, what is the final temperature of the water?
q = cm∆T ∆T = q / cm = 9750J / (4.184J/go)(335g) = 7oC

7 12. If 335g of water at 65.5oC loses 9750J of heat, what is the final temperature of the water?
q = cm∆T ∆T = q / cm = 9750J / (4.184J/go)(335g) = 7oC 65.5 – 7 = 58.5oC

8 The temperature of a sample of water increases from 20. 0oC to 46
The temperature of a sample of water increases from 20.0oC to 46.6oC as it absorbs 5650J of heat. What is the mass of the sample?

9 The temperature of a sample of water increases from 20. 0oC to 46
The temperature of a sample of water increases from 20.0oC to 46.6oC as it absorbs 5650J of heat. What is the mass of the sample? q = cm∆T

10 The temperature of a sample of water increases from 20. 0oC to 46
The temperature of a sample of water increases from 20.0oC to 46.6oC as it absorbs 5650J of heat. What is the mass of the sample? q = cm∆T m = q / c∆T

11 The temperature of a sample of water increases from 20. 0oC to 46
The temperature of a sample of water increases from 20.0oC to 46.6oC as it absorbs 5650J of heat. What is the mass of the sample? q = cm∆T m = q / c∆T = 5650J / (4.184J/go)(26.6o)

12 The temperature of a sample of water increases from 20. 0oC to 46
The temperature of a sample of water increases from 20.0oC to 46.6oC as it absorbs 5650J of heat. What is the mass of the sample? q = cm∆T m = q / c∆T = 5650J / (4.184J/go)(26.6o) = 50.8g

13 Why does ∆H for an exothermic reaction have a negative value?

14 Why does ∆H for an exothermic reaction have a negative value?
The reaction gives off heat, so the products have less heat than the reactants did. The change is negative.

15 Why is a measured amount of water an essential part of a calorimeter?

16 Why is a measured amount of water an essential part of a calorimeter?
q = cm∆T c = J/go

17 Explain the meaning of ∆Hrxn
Explain the meaning of ∆Hrxn. Why is ∆Hrxn sometimes positive and sometimes negative?

18 Positive for endothermic reactions Negative for exothermic reactions.
Explain the meaning of ∆Hrxn. Why is ∆Hrxn sometimes positive and sometimes negative? Positive for endothermic reactions Negative for exothermic reactions.

19 Could another liquid be used just as effectively as water in a calorimeter? Why or why not?

20 Could another liquid be used just as effectively as water in a calorimeter? Why or why not?
q = cm∆T c = _____ J/go

21 Explain how you would design and experiment to determine the specific heat of a 45g piece of metal.

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