1. The Second Law of Thermodynamics
CHAPTER 5
The Second Law of Thermodynamics

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FIGURE 5-9 Part of the heat received by a heat engine is converted to work, while the rest is rejected to a sink.
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3. FIGURE 5-10 Schematic of a steam power plant.
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FIGURE 5-10 Schematic of a steam power plant.
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4. FIGURE 5-14 Schematic of a heat engine.
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FIGURE 5-14 Schematic of a heat engine.
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FIGURE 5-16 A heat-engine cycle cannot be completed without rejecting some heat to a low-temperature sink.
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FIGURE 5-23 The efficiency of a cooking appliance represents the fraction of the energy supplied to the appliance that is transferred to the food.
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FIGURE 5-25 Basic components of a refrigeration system and typical operating conditions.
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FIGURE 5-26 The objective of a refrigerator is to remove QL from the cooled space.
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FIGURE 5-27 The objective of a heat pump is to supply heat QH into the warmer space.
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FIGURE 5-33 Proof that the violation of the Kelvin-Planck statement leads to the violation of the Clausius statement.
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FIGURE 5-34 A perpetual-motion machine that violates the first law of thermodynamics (PMM1).
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12. FIGURE 5-43 Execution of the Carnot cycle in a closed system.
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FIGURE 5-43 Execution of the Carnot cycle in a closed system.
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13. FIGURE 5-44 P-V diagram of the Carnot cycle.
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FIGURE 5-44 P-V diagram of the Carnot cycle.
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14. FIGURE 5-45 P-V diagram of the reversed Carnot cycle.
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FIGURE 5-45 P-V diagram of the reversed Carnot cycle.
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15. FIGURE 5-46 The Carnot principles.
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FIGURE 5-46 The Carnot principles.
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16. FIGURE 5-47 Proof of the first Carnot principle.
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FIGURE 5-47 Proof of the first Carnot principle.
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FIGURE 5-49 The arrangement of heat engines used to develop the thermodynamic temperature scale.
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FIGURE 5-55 The fraction of heat that can be converted to work as a function of source temperature (for TL = 303 K).
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FIGURE 5-57 No refrigerator can have a higher COP than a reversible refrigerator operating between the same temperature limits.
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FIGURE 5-63 The condenser coils of a refrigerator must be cleaned periodically, and the airflow passages must not be blocked to maintain high performance.
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