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C H A P T E R   15 Thermodynamics

C H A P T E R   15 Thermodynamics. 15.7  The Second Law of Thermodynamics. Heat flows spontaneously from a substance at a higher temperature to a substance at a lower temperature and does not flow spontaneously in the reverse direction. 15.8  Heat Engines . 15.8  Heat Engines .

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C H A P T E R   15 Thermodynamics

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  1. C H A P T E R   15Thermodynamics

  2. 15.7 The Second Law of Thermodynamics Heat flows spontaneously from a substance at a higher temperature to a substance at a lower temperature and does not flow spontaneously in the reverse direction.

  3. 15.8 Heat Engines

  4. 15.8 Heat Engines A heat engine is any device that uses heat to perform work. It has three essential features: 1. Heat is supplied to the engine at a relatively high temperature, hot reservoir. 2. Part of the input heat is used to perform work by the working substance of the engine, which is the material within the engine that actually does the work. 3. The remainder of the input heat is rejected at a temperature lower than the input temperature to a place called the cold reservoir. QH = QC + W

  5. Efficiency,e of a Heat Engine QH = QC + W

  6. 15.10 Refrigerators and Air Conditioners

  7. Refrigerators and Air Conditioners In a refrigeration process, workW is used to remove heatQC from the cold reservoir and deposit heat QH into the hot reservoir.

  8. Refrigerator

  9. Air Conditioner

  10. Coefficient of Performance For a refrigerator or air-conditioner, the coefficient of performance is given by,

  11. Heat Pump

  12. 15.11 Entropy, S Entropy is a function of the state or condition of the system. Change in entropy is defined as follows,

  13. Ice Melting

  14. Demolition of a building

  15. Problem-71, Page 447 Find the change in entropy of the H2O molecules when (a) three kilograms of ice melts into water at 273 K and (b) three kilograms of water changes into steam at 373 K. (c) On the basis of the answers to parts (a) and (b), discuss which change creates more disorder in the collection of H2O molecules.

  16. 15.12 The Third Law of Thermodynamics It is not possible to lower the temperature of any system to absolute zero in a finite number of steps.

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