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Temperature

Temperature. Physics 313 Professor Lee Carkner Lecture 2. Thermodynamics. Thermodynamics is the study of energy e.g. a cylinder of gas accelerated to high speed has an increased kinetic energy but the same temperature

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Temperature

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  1. Temperature Physics 313 Professor Lee Carkner Lecture 2

  2. Thermodynamics • Thermodynamics is the study of energy • e.g. a cylinder of gas accelerated to high speed has an increased kinetic energy but the same temperature • We will discuss the properties of a system and how they relate to internal energy, through both the macroscopic and microscopic points of view

  3. Specify a few basic bulk properties Classical Thermodynamics Specify states of individual units Statistical mechanics Macroscopic Microscopic

  4. Systems • Material separated from its surroundings by a boundary • Closed • e.g. gas in a piston • Open • e.g. an automobile radiator

  5. Processes • State • Process • Quasi - Static (Quasi-Equilibrium) Process • slow changes • Non-quasi static processes are discontinuous

  6. Equilibrium • Define two properties for a system • If the two properties remain constant the system is in equilibrium • A system is in equilibrium with itself if its properties are constant throughout the whole system

  7. System Boundaries • Adiabatic Wall • thermal insulator • Dithermal wall • thermal conductor

  8. Temperature Proxies • Changes in temperature cause changes in other system properties • Two consequences: • We measure T by measuring changes in other properties • If T is not constant, nothing else is • Often given at standard temperature (0 C) or room temperature (20 C)

  9. Thermal Expansion • The degree to which a linear distance varies with temperature is given by: • Change in one dimension (linear expansion) • Very small (~one part in a million per degree) in most cases • Note that a itself is temperature dependant

  10. Typical “toothed” bridge expansion joint

  11. “Rocker” support that allows deck expansion

  12. “Sleeved” railing expansion section

  13. The Brooklyn Bridge

  14. The Brooklyn Bridge • Built: • Designed: John A Roebling • Chief Engineer: Washington A. Roebling • Height: • Length: • World’s longest suspension bridge until 1903 • To learn more about the Brooklyn Bridge visit your local library: • The Great Bridge : The Epic Story of the Building of the Brooklyn Bridge by David McCullough

  15. Brooklyn Bridge cables

  16. Stringing the Cables

  17. Main Cable

  18. Thermal Equilibrium • Two systems separated by a dithermal wall that do not change properties • If the two systems are not in thermal equilibrium they will exchange heat until they are

  19. Zeroth Law • Three systems A, B and T • A and T -- • B and T -- • Then for A and B • Two systems in thermal equilibrium with a third are in thermal equilibrium with each other

  20. Isotherms • Plot pressure and volume • Curve is called an isotherm • Temperature determines thermal equilibrium

  21. Temperature • Take an object T and mark it so that changes in its properties can be measured • Calibrate the measurements so that your scale corresponds to universally accepted situations • e.g. mercury thermometer

  22. Temperature Scales • Gabriel Daniel Fahrenheit invented the mercury thermometer in 1714 • 32 F is freezing point of water, 212 is chosen for boiling point (32+180) • Anders Celsius introduced his scale in 1742 • William Thomson, Lord Kelvin, developed the absolute (Kelvin) scale from his analysis of ideal engines

  23. Temperatures • Universe (Planck time) ~ • Universe (today) ~ • Average star ~ • Average dust cloud ~ • Planet (Mercury) ~ • Planet (Neptune) ~ • Planet (habitable) ~

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