1 / 15

Zeroth Law of Thermodynamics

Zeroth Law of Thermodynamics. The Concept of Temperature. The concept of temperature is an afterthought in scientific history By the time a truly usable standard unit for measuring temperature came along, the 1 st and 2 nd law of thermodynamics were quite well established.

ananda
Download Presentation

Zeroth Law of Thermodynamics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Zeroth Law of Thermodynamics

  2. The Concept of Temperature • The concept of temperature is an afterthought in scientific history • By the time a truly usable standard unit for measuring temperature came along, the 1st and 2nd law of thermodynamics were quite well established

  3. The Concept of Temperature • Imagine not knowing anything about temperature while conducting thermal experiments with heat and closed containers. • Mechanical equilibrium: balance achieved between two systems attempting to do work on one another • The most interesting thing to witness as a thermodynamisist is nothing!

  4. The Concept of Temperature • Envision two pressurized chambers connected with a moveable piston between them held in place with a pin. • Three reactions are possible when pin is removed. • Piston moves toward chamber A • Piston moves toward chamber B • PISTON DOES NOT MOVE!

  5. The Concept of Temperature • Assuming that chamber B is of known pressure, what can we say about the pressure of chamber A if the piston moves into chamber B? • what can we say about the pressure of chamber B and chamber A if the piston does not move when the pin is removed?

  6. The Concept of Temperature • If we test another chamber C of unknown pressure against chamber B and find that the piston does not move, what can we say about the pressure of chamber C and chamber A? • Therefore, under these conditions, A = B = C. • If the piston moves, Pressure \ Volume Work has been done. • If the piston does not move, the systems are in mechanical equilibrium.

  7. The Concept of Temperature • Thermal equilibrium is the balance achieved between two systems attempting to exchange heat with one another. • The same process observed with pressure \ volume experiments can be applied to the measurement of the internal energy in a system using the flow of heat.

  8. The Concept of Temperature • Energy transfers were among the first physical properties to be qualified using primitive measuring techniques. • They were also among the first thermodynamic properties to be quantified using advancing measurement equipment.

  9. The Concept of Temperature • Earliest thermal measuring devices were diathermic which means they conduct heat like a saucepan. • If a sealed diathermic system is placed against a material of unknown thermal content, the change in the diathermic system reveals a referenced thermal content.

  10. Development of Temperature Scales • Celcius: scale set at 0 for water freezing and 100 for water boiling. • Fahrenheit: scale set at 0 for the coldest temperature attainable in a salt water mixture. Water freezes at 32 and boils at 212.

  11. Jacques Charles (1746-1823) • Charles discovered the relationship between temperature and volume in 1787. • He found that all gases expand to the same extent when heated through the same temperature range. • A volume of a gas heated or cooled by one degree celcius changes by 1/273 of the original volume. • This property was used to create the Kelvin scale.

  12. Boltzman (1844-1906) • He theorized that molecules in a system exist within specific energy levels. • In his model, an isolated group of molecules or atoms have a range of energies based on their transitional, rotational, and vibrational motions.

  13. Boltzman • It would be too much work to calculate the energy of each particle separately • Therefore to simplify things, we can use the average energy of the collection in calculations • Boltzman describes the behavior of these particles with the Boltzman distribution (β)

  14. Boltzman • β could have been used as our measure of temperature had Ludwig done his work before Celcius and Fahrenheit. • Instead, the Boltzman constant is used to convert β into units with Kelvin.

  15. Boltzman • The Boltzman Distribution shows the average number of molecules at each energy level in a system at a given temperature • High β is low temperature • Low β is high temperature • Water freezes at β = 2.65 x 1020J-1 and boils at 1.94 x 1020J-1

More Related