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P-V Diagrams and processes C ontents: Basic Concept Example Whiteboards

P-V Diagrams and processes C ontents: Basic Concept Example Whiteboards. Isobaric Expansion (+ W). Isobaric Compression (- W). Volume. Pressure. Iso = same baric = pressure. Formulae:. Look at process A. Volume. Isochoric = same volume (closed container) how does it happen?.

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P-V Diagrams and processes C ontents: Basic Concept Example Whiteboards

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  1. P-V Diagrams and processes • Contents: • Basic Concept • Example • Whiteboards

  2. Isobaric Expansion (+W) Isobaric Compression (-W) Volume Pressure Iso = same baric = pressure

  3. Formulae:

  4. Look at process A

  5. Volume Isochoric = same volume (closed container) how does it happen? Pressure P-V diagrams TOC

  6. Volume Pressure Adiabatic (no heat flow) processes Adiabatic expansion: (Q = 0) Work is done by the gas (+W) No heat flows in: Q = U + W 0 = U + W, U = -W Internal energy (T) drops Examples Air rockets Cold side of fridge Universe Demo - cloud TOC

  7. Volume Pressure Adiabatic (no heat flow) processes Adiabatic compression: (Q = 0) Work is done on the gas (-W) No heat flows in: Q = U + W 0 = U + W, U = -(-W) Internal energy (T) rises Examples Bike pump/diesels Hot side of fridge Compressors Demo – plunger/Murray Frig TOC

  8. Volume Pressure Isothermal (constant temperature) processes Isothermal expansion: (T = 0) Work is done by the gas (+W) Internal energy is constant (U = 0) Q = U + W = W Heat turns to work (slowly) TOC

  9. Volume Pressure Isothermal (constant temperature) processes Isothermal compression: (T = 0) Work is done on the gas (-W) Internal energy is constant (U = 0) Q = U + W = W Work turns to heat (slowly) TOC

  10. Volume Pressure What’s goin’ on here? isobaric expansion heat flows in, temp increases TOC

  11. Volume Pressure What’s goin’ on here? isochoric cooling heat flows out, pressure drops TOC

  12. Volume Pressure What’s goin’ on here? isochoric heating, isobaric expansion TOC

  13. Volume Pressure Which process is adiabatic, which is isothermal? A B In which process would the temperature drop? B is adiabatic TOC

  14. Volume Pressure Which process is adiabatic, which is isothermal? B A In which process would the temperature increase? B is adiabatic TOC

  15. Volume Pressure A complete cycle: C B A D Complete cycle - where is work done? Is more work done by gas or on the gas? TOC

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