Classical thermodynamics: Difference between revisions

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:''"...all the signs suggest that the main principles of thermodynamics from the classical theory will not only rule unchallenged but will more probably become correspondingly extended."''
:[[Max Karl Ernst Ludwig Planck | Max Planck]] "The Genesis and Present State of Development of the Quantum Theory" [http://nobelprize.org/nobel_prizes/physics/laureates/1918/planck-lecture.html Nobel Lecture, June 2, 1920]
:''"...the deep impression that classical thermodynamics made upon me. It is the only physical theory of universal content concerning which I am convinced that, within the framework of the applicability of its basic concepts, it will never be overthrown."''
:[[Albert Einstein]] "Autobiographical Notes"
{{columns-list|3|
==B==
*[[Boyle's law]]
*[[Boyle's law]]
*[[Boyle temperature]]
*[[Boyle temperature]]
*[[Bridgman thermodynamic formulas]]
==C==
*[[Capillary waves]]
*[[Carnot cycle]]
*[[Carnot cycle]]
*[[Charles's law]]
*[[Charles's law]]
*[[Chemical potential]]
*[[Chemical potential]]
*[[Clausius-Clapeyron relation]]
*[[Clausius theorem]]
*[[Compressibility]]
*[[Compressibility]]
*[[Compressibility factor]]
*[[Compressibility factor]]
*[[Critical points]]
*[[Critical points]]
==D==
*[[Dalton's law]]
*[[Duhem-Margules equation]]
==E==
*[[Energy equation]]
*[[Energy equation]]
*[[Enthalpy]]
*[[Enthalpy]]
*[[Entropy]]
*[[Extensive properties]]
==F==
*[[First law of thermodynamics]]
*[[First law of thermodynamics]]
==G==
*[[Gay-Lussac's law]]
*[[Gay-Lussac's law]]
*[[Gibbs-Duhem relation]]
*[[Gibbs-Duhem relation]]
*[[Gibbs-Helmholtz equations]]
*[[Gibbs-Helmholtz equations]]
*[[Gibbs energy function]]
*[[Gibbs energy function]]
*[[Gibbs phase rule]]
*[[Griffiths phase rule]]
==H==
*[[Heat]]
*[[Heat capacity]]
*[[Heat capacity]]
*[[Helmholtz energy function]]
*[[Helmholtz energy function]]
*[[Henry's law]]
==I==
*[[Intensive properties]]
*[[Internal energy]]
*[[Internal energy]]
==J==
*[[Joule-Thomson effect]]
*[[Joule-Thomson effect]]
==L==
*[[Latent heat]]
*[[Law of corresponding states]]
*[[Le Chatelier's principle]]
==M==
*[[Maxwell's relations]]
*[[Maxwell's relations]]
*[[Maxwell's equal area construction]]
*[[Melting curve]]
*[[Mpemba effect]]
==P==
*[[Pressure]]
*[[Pressure]]
==R==
*[[Rankine cycle]]
*[[Raoult's law]]
==S==
*[[Second law of thermodynamics]]
*[[Second law of thermodynamics]]
*[[Speed of sound]]
*[[Stirling cycle]]
==T==
*[[Temperature]]
*[[Temperature]]
*[[Thermal conductivity]]
*[[Thermal expansion coefficient]]
*[[Thermal expansion coefficient]]
*[[Thermodynamic integration]]
*[[Thermodynamic integration]]
*[[Thermodynamic potential]]
*[[Thermodynamic relations]]
*[[Thermodynamic relations]]
*[[Third law of thermodynamics]]
*[[Triple point]]
==V==
*[[Vapour pressure]]
==W==
*[[Work]]
*[[Work]]
==Z==
*[[Zeno line]]
*[[Zeroth law of thermodynamics]]
*[[Zeroth law of thermodynamics]]
 
}}
 
[[category: Classical thermodynamics]]
*[[Intensive properties]]
__NOTOC__
*[[Extensive properties]]
==General reading==
*[http://store.doverpublications.com/048666371x.html Max Planck "Treatise on Thermodynamics", Dover Publications ISBN: 048666371X]

Latest revision as of 14:16, 10 January 2017

"...all the signs suggest that the main principles of thermodynamics from the classical theory will not only rule unchallenged but will more probably become correspondingly extended."
Max Planck "The Genesis and Present State of Development of the Quantum Theory" Nobel Lecture, June 2, 1920
"...the deep impression that classical thermodynamics made upon me. It is the only physical theory of universal content concerning which I am convinced that, within the framework of the applicability of its basic concepts, it will never be overthrown."
Albert Einstein "Autobiographical Notes"


B

C

D

E

F

G

H

I

J

L

M

P

R

S

T

V

W

Z