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Dr. Jie ZouPHY 13611 Chapter 20 Heat and the First Law of Thermodynamics (cont.)

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Presentation on theme: "Dr. Jie ZouPHY 13611 Chapter 20 Heat and the First Law of Thermodynamics (cont.)"— Presentation transcript:

1 Dr. Jie ZouPHY 13611 Chapter 20 Heat and the First Law of Thermodynamics (cont.)

2 Dr. Jie ZouPHY 13612 Outline Latent heat (20.3) Phase change Latent heat for different phase changes Example: Convert ice to steam Calorimetry problems involving phase change (20.3) Work and heat in thermodynamic processes (20.4) PV diagram

3 Dr. Jie ZouPHY 13613 Latent heat Phase change: The situation when the physical characteristics of the substance change from one form to another. Common phase changes: Melting (from solids to liquid) and Boiling (from liquid to gas) All phase changes involve a change in internal energy but no change in temperature. (Example: boiling) Latent heat: If a quantity Q of energy transfer is required to change the phase of a mass m of a substance, the ratio L  Q/m is called the latent heat of the substance. L depends on the nature of the phase change and the properties of the substance. (1) Latent heat of fusion L f (from solid to liquid); (2) latent heat of vaporization L v (from liquid to gas; (3) latent heat of condensation (from gas to liquid); (4) latent heat of solidification (from liquid to solid). See Table 20.2. Q = ±mL; “+” or “-” depends on whether adding or removing energy from the substance.

4 Dr. Jie ZouPHY 13614 Example: Convert ice to steam Find the energy required to convert a 1.00-g cube of ice at -30.0°C to steam at 120.0°C. (See Tables 20.1 and 20.2) Figure 20.2 Experimental results

5 Dr. Jie ZouPHY 13615 Previous example follow-up discussions We can describe phase changes in terms of a rearrangement of molecules when energy is added to or removed from a substance. The latent heat of vaporization L v for a given substance is usually somewhat higher than the latent heat of fusion L f. Explanation: Liquid-type bonds are slightly less strong than the solid-type bonds, while gas-type bonds are much less strong; molecules of the gas essentially are not bonded to each other. Quick Quiz 20.3: Calculate the slopes for the A, C, and E portions of Figure 20.2. Rank the slopes from least to greatest and explain what this ordering means.

6 Dr. Jie ZouPHY 13616 Calorimetry problems involving phase change Example 20.4 Cooling the steam: What mass of steam initially at 130°C is needed to warm 200 g of water in a 100-g glass container from 20.0°C to 50.0°C? What if the final state of the system is water at 100°C? Would we need more or less steam? How would the analysis above change? See the textbook for problem-solving hints about Calorimetry-type problems

7 Dr. Jie ZouPHY 13617 Work and heat in thermodynamic processes The work done on a gas in a quasi-static process that takes the gas from an initial state to a final state is the negative of the area under the curve on a PV diagram, evaluated between the initial and final states: Quasi-static process: A process during which the system is allowed to remain essentially in thermal equilibrium at all times. PV diagram: If the pressure P and volume V are known at each step of the process, a graph of P v.s. V is called a PV diagram. Path: The curve on a PV diagram is called the path taken between the initial and final states.

8 Dr. Jie ZouPHY 13618 Example: P. 633, Problem #21 A sample of ideal gas is expanded to twice its original volume of 1.00 m 3 in a quasi-static process for which P =  V 2, with  = 5.00 atm/m 6, as shown in the figure. How much work is done on the expanding gas?

9 Dr. Jie ZouPHY 13619 The work done depends on the particular path taken between the initial and final states.

10 Dr. Jie ZouPHY 136110 Heat in thermodynamic processes Energy transfer by heat, like work done, depends on the initial, final, and intermediate states of the system.

11 Dr. Jie ZouPHY 136111 Homework Ch. 20, P.633, Problems: #14, 22, 26.


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