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Timeline of thermodynamics

December 20, 2023

A timeline of events in the history of thermodynamics.

Before 1800 edit

1800–1847 edit

1848–1899 edit

1900–1944 edit

1945–present edit

See also edit

References edit

  1. ^ "Who Gets Credit for Inventing the Thermometer?". ThoughtCo. Retrieved 2023-11-23.
  2. ^ In 1662, he published a second edition of the 1660 book New Experiments Physico-Mechanical, Touching the Spring of the Air, and its Effects with an addendum Whereunto is Added a Defence of the Authors Explication of the Experiments, Against the Obiections of Franciscus Linus and Thomas Hobbes; see J Appl Physiol 98: 31–39, 2005. (Jap.physiology.org Online.)
  3. ^ Hooke, Robert, Robert (1965). Micrographia. s.l.: Science Heritage. p. 12.
  4. ^ Becher, Johann Joachim, 1635-1682. (1738). Physica subterranea profundam subterraneorum genesin, e principiis hucusque ignotis, ostendens. Ex officina Weidmanniana. OCLC 3425904.{{cite book}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  5. ^ Jenkins, Rhys (1936). Links in the History of Engineering and Technology from Tudor Times. Ayer Publishing. p. 66. ISBN 0-8369-2167-4.
  6. ^ See:
    • Daniel Rutherford (1772) "Dissertatio Inauguralis de aere fixo, aut mephitico" (Inaugural dissertation on the air [called] fixed or mephitic), M.D. dissertation, University of Edinburgh, Scotland.
    • English translation: Leonard Dobbin (1935) "Daniel Rutherford's inaugural dissertation," Journal of Chemical Education, 12 (8) : 370–375.
    • See also: James R. Marshall and Virginia L. Marshall (Spring 2015) "Rediscovery of the Elements: Daniel Rutherford, nitrogen, and the demise of phlogiston," The Hexagon (of Alpha Chi Sigma), 106 (1) : 4–8. Available on-line at: University of North Texas.
  7. ^ Lavoisier, Antoine Laurent (1965). Elements of chemistry, in a new systematic order: containing all the modern discoveries. Courier Dover Publications. p. 15. ISBN 0-486-64624-6.
  8. ^ Prévost, Pierre (April 1791). "Mémoire sur l'équilibre du feu". Observations Sur la Physique (in French). XXXVIII (1): 314–323.
  9. ^ Brown, Robert, 1773-1858. (1828). A brief account of microscopical observations made in the months of June, July, and August, 1827, on the particles contained in the pollen of plants: and on the general existence of active molecules in organic and inorganic bodies ... A. and C. Black. OCLC 38057036.{{cite book}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  10. ^ CLAPEYRON, Benoît Paul Émile. (1834). Mémoire sur la puissance motrice de la chaleur. OCLC 559435201.
  11. ^ Waterston, John J. (1843). Thoughts on the mental functions : being an attempt to treat metaphysics as a branch of the physiology of the nervous system. London. OCLC 328092289.
  12. ^ "Neglected Pioneers". www.math.umd.edu. Retrieved 2020-12-20.
  13. ^ Joule, J.P. (1843). "LII. On the calorific effects of magneto-electricity, and on the mechanical value of heat". The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science. 23 (154): 435–443. doi:10.1080/14786444308644766. ISSN 1941-5966.
  14. ^ Grove, W. R. (1874). The correlation of physical forces (6th edition) by W.R. Grove. London: Longmans, Green. doi:10.5962/bhl.title.19475.
  15. ^ Helmholtz, Hermann v. (1847). Über die Erhaltung der Kraft, eine physikalische Abhandlung. OCLC 488622067.
  16. ^ Planck, Max, 1858-1947. Zur Theorie des Gesetzes der Energieverteilung im Normalspectrum. OCLC 15745309.{{cite book}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  17. ^ Einstein, Albert (1905). "On a Heuristic Viewpoint Concerning the Production and Transformation of Light" (PDF). Annalen der Physik (In German).
  18. ^ Pogliani, Lionello; Berberan-Santos, Mario (2000). "Constantin Carathéodory and the axiomatic thermodynamics" (PDF). Journal of Mathematical Chemistry. 28 (1): 313. doi:10.1023/A:1018834326958. S2CID 17244147. Retrieved May 30, 2022.
  19. ^ Debye, Peter (1912). "Zur Theorie der spezifischen Waerme". Annalen der Physik (in German). 39 (4): 789–839. Bibcode:1912AnP...344..789D. doi:10.1002/andp.19123441404.
  20. ^ Saha, Megh Nad (1920). "LIII.Ionization in the solar chromosphere". Philosophical Magazine. Series 6. 40 (238): 472–488. doi:10.1080/14786441008636148.
  21. ^ Fermi, Enrico (1926). "Sulla quantizzazione del gas perfetto monoatomico". Rendiconti Lincei (in Italian). 3: 145–9., translated as Zannoni, Alberto (1999-12-14). "On the Quantization of the Monoatomic Ideal Gas". arXiv:cond-mat/9912229.
  22. ^ Dirac, Paul A. M. (1926). "On the Theory of Quantum Mechanics". Proceedings of the Royal Society A. 112 (762): 661–77. Bibcode:1926RSPSA.112..661D. doi:10.1098/rspa.1926.0133. JSTOR 94692.
  23. ^ von Neumann, John (1927), "Wahrscheinlichkeitstheoretischer Aufbau der Quantenmechanik", Göttinger Nachrichten, 1: 245–272
  24. ^ Anonymous (1927). "Minutes of the Philadelphia Meeting December 28, 29, 30, 1926". Physical Review. 29 (2): 350–373. Bibcode:1927PhRv...29..350.. doi:10.1103/PhysRev.29.350.
  25. ^ Johnson, J. (1928). "Thermal Agitation of Electricity in Conductors". Physical Review. 32 (97): 97–109. Bibcode:1928PhRv...32...97J. doi:10.1103/physrev.32.97.
  26. ^ Nyquist H (1928). "Thermal Agitation of Electric Charge in Conductors". Physical Review. 32 (1): 110–113. Bibcode:1928PhRv...32..110N. doi:10.1103/PhysRev.32.110.
  27. ^ Onsager, Lars (1931-02-15). "Reciprocal Relations in Irreversible Processes. I." Physical Review. American Physical Society (APS). 37 (4): 405–426. Bibcode:1931PhRv...37..405O. doi:10.1103/physrev.37.405. ISSN 0031-899X.
  28. ^ A. A. Vlasov (1938). "On Vibration Properties of Electron Gas". J. Exp. Theor. Phys. (in Russian). 8 (3): 291.
  29. ^ A. A. Vlasov (1968). "The Vibrational Properties of an Electron Gas". Soviet Physics Uspekhi. 10 (6): 721–733. Bibcode:1968SvPhU..10..721V. doi:10.1070/PU1968v010n06ABEH003709. S2CID 122952713.
  30. ^ N. N. Bogolyubov Jr. and D. P. Sankovich (1994). "N. N. Bogolyubov and statistical mechanics". Russian Math. Surveys 49(5): 19—49. doi:10.1070/RM1994v049n05ABEH002419
  31. ^ N. N. Bogoliubov and N. M. Krylov (1939). Fokker–Planck equations generated in perturbation theory by a method based on the spectral properties of a perturbed Hamiltonian. Zapiski Kafedry Fiziki Akademii Nauk Ukrainian SSR 4: 81–157 (in Ukrainian).
  32. ^ Onsager, Lars (1944-02-01). "Crystal Statistics. I. A Two-Dimensional Model with an Order-Disorder Transition". Physical Review. 65 (3–4): 117–149. Bibcode:1944PhRv...65..117O. doi:10.1103/physrev.65.117. ISSN 0031-899X.
  33. ^ N. N. Bogoliubov (1946). "Kinetic Equations". Journal of Experimental and Theoretical Physics (in Russian). 16 (8): 691–702.
  34. ^ N. N. Bogoliubov (1946). "Kinetic Equations". Journal of Physics USSR. 10 (3): 265–274.
  35. ^ Shannon, Claude Elwood, 1916-2001. (September 1998). The mathematical theory of communication. ISBN 978-0-252-09803-1. OCLC 967725093.{{cite book}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  36. ^ Kubo, Ryogo (1957-06-15). "Statistical-Mechanical Theory of Irreversible Processes. I. General Theory and Simple Applications to Magnetic and Conduction Problems". Journal of the Physical Society of Japan. 12 (6): 570–586. doi:10.1143/JPSJ.12.570. ISSN 0031-9015.
  37. ^ Jaynes, E.T. (1957). "Information theory and statistical mechanics" (PDF). Physical Review. 106 (4): 620–630. Bibcode:1957PhRv..106..620J. doi:10.1103/PhysRev.106.620.
  38. ^ — (1957). "Information theory and statistical mechanics II" (PDF). Physical Review. 108 (2): 171–190. Bibcode:1957PhRv..108..171J. doi:10.1103/PhysRev.108.171.

December 20, 2023
timeline, thermodynamics, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, a. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Timeline of thermodynamics news newspapers books scholar JSTOR August 2010 Learn how and when to remove this template message A timeline of events in the history of thermodynamics Contents 1 Before 1800 2 1800 1847 3 1848 1899 4 1900 1944 5 1945 present 6 See also 7 ReferencesBefore 1800 edit1593 Galileo Galilei invents one of the first thermoscopes also known as Galileo thermometer 1 1650 Otto von Guericke builds the first vacuum pump 1660 Robert Boyle experimentally discovers Boyle s Law relating the pressure and volume of a gas published 1662 2 1665 Robert Hooke published his book Micrographia which contained the statement Heat being nothing else but a very brisk and vehement agitation of the parts of a body 3 1667 J J Becher puts forward a theory of combustion involving combustible earth in his book Physica subterranea 4 see Phlogiston theory 1676 1689 Gottfried Leibniz develops the concept of vis viva a limited version of the conservation of energy 1679 Denis Papin designed a steam digester which inspired the development of the piston and cylinder steam engine 1694 1734 Georg Ernst Stahl names Becher s combustible earth as phlogiston and develops the theory 1698 Thomas Savery patents an early steam engine 5 1702 Guillaume Amontons introduces the concept of absolute zero based on observations of gases 1738 Daniel Bernoulli publishes Hydrodynamica initiating the kinetic theory 1749 Emilie du Chatelet in her French translation and commentary on Newton s Philosophiae Naturalis Principia Mathematica derives the conservation of energy from the first principles of Newtonian mechanics 1761 Joseph Black discovers that ice absorbs heat without changing its temperature when melting 1772 Black s student Daniel Rutherford discovers nitrogen 6 7 which he calls phlogisticated air and together they explain the results in terms of the phlogiston theory 1776 John Smeaton publishes a paper on experiments related to power work momentum and kinetic energy supporting the conservation of energy 1777 Carl Wilhelm Scheele distinguishes heat transfer by thermal radiation from that by convection and conduction 1783 Antoine Lavoisier discovers oxygen and develops an explanation for combustion in his paper Reflexions sur le phlogistique he deprecates the phlogiston theory and proposes a caloric theory 1784 Jan Ingenhousz describes Brownian motion of charcoal particles on water 1791 Pierre Prevost shows that all bodies radiate heat no matter how hot or cold they are 8 1798 Count Rumford Benjamin Thompson publishes his paper An Experimental Enquiry Concerning the Source of the Heat which is Excited by Friction detailing measurements of the frictional heat generated in boring cannons and develops the idea that heat is a form of kinetic energy his measurements are inconsistent with caloric theory but are also sufficiently imprecise as to leave room for doubt 1800 1847 edit1802 Joseph Louis Gay Lussac publishes Charles s law discovered but unpublished by Jacques Charles around 1787 this shows the dependency between temperature and volume Gay Lussac also formulates the law relating temperature with pressure the pressure law or Gay Lussac s law 1804 Sir John Leslie observes that a matte black surface radiates heat more effectively than a polished surface suggesting the importance of black body radiation 1805 William Hyde Wollaston defends the conservation of energy in On the Force of Percussion 1808 John Dalton defends caloric theory in A New System of Chemistry and describes how it combines with matter especially gases he proposes that the heat capacity of gases varies inversely with atomic weight 1810 Sir John Leslie freezes water to ice artificially 1813 Peter Ewart supports the idea of the conservation of energy in his paper On the measure of moving force the paper strongly influences Dalton and his pupil James Joule 1819 Pierre Louis Dulong and Alexis Therese Petit give the Dulong Petit law for the specific heat capacity of a crystal 1820 John Herapath develops some ideas in the kinetic theory of gases but mistakenly associates temperature with molecular momentum rather than kinetic energy his work receives little attention other than from Joule 1822 Joseph Fourier formally introduces the use of dimensions for physical quantities in his Theorie Analytique de la Chaleur 1822 Marc Seguin writes to John Herschel supporting the conservation of energy and kinetic theory 1824 Sadi Carnot analyzes the efficiency of steam engines using caloric theory he develops the notion of a reversible process and in postulating that no such thing exists in nature lays the foundation for the second law of thermodynamics and initiating the science of thermodynamics 1827 Robert Brown discovers the Brownian motion of pollen and dye particles in water 9 1831 Macedonio Melloni demonstrates that black body radiation can be reflected refracted and polarised in the same way as light 1834 Emile Clapeyron popularises Carnot s work through a graphical and analytic formulation He also combined Boyle s Law Charles s Law and Gay Lussac s Law to produce a Combined Gas Law PV T k 10 1841 Julius Robert von Mayer an amateur scientist writes a paper on the conservation of energy but his lack of academic training leads to its rejection 1842 Mayer makes a connection between work heat and the human metabolism based on his observations of blood made while a ship s surgeon he calculates the mechanical equivalent of heat 1842 William Robert Grove demonstrates the thermal dissociation of molecules into their constituent atoms by showing that steam can be disassociated into oxygen and hydrogen and the process reversed 1843 John James Waterston fully expounds the kinetic theory of gases 11 but according to D Levermore there is no evidence that any physical scientist read the book perhaps it was overlooked because of its misleading title Thoughts on the Mental Functions 12 1843 James Joule experimentally finds the mechanical equivalent of heat 13 1845 Henri Victor Regnault added Avogadro s Law to the Combined Gas Law to produce the Ideal Gas Law PV nRT 1846 Grove publishes an account of the general theory of the conservation of energy in On The Correlation of Physical Forces 14 1847 Hermann von Helmholtz publishes a definitive statement of the conservation of energy the first law of thermodynamics 15 1848 1899 edit1848 William Thomson extends the concept of absolute zero from gases to all substances 1849 William John Macquorn Rankine calculates the correct relationship between saturated vapour pressure and temperature using his hypothesis of molecular vortices 1850 Rankine uses his vortex theory to establish accurate relationships between the temperature pressure and density of gases and expressions for the latent heat of evaporation of a liquid he accurately predicts the surprising fact that the apparent specific heat of saturated steam will be negative 1850 Rudolf Clausius coined the term entropy das Warmegewicht symbolized S to denote heat lost or turned into waste Warmegewicht translates literally as heat weight the corresponding English term stems from the Greek trepw I turn 1850 Clausius gives the first clear joint statement of the first and second law of thermodynamics abandoning the caloric theory but preserving Carnot s principle 1851 Thomson gives an alternative statement of the second law 1852 Joule and Thomson demonstrate that a rapidly expanding gas cools later named the Joule Thomson effect or Joule Kelvin effect 1854 Helmholtz puts forward the idea of the heat death of the universe 1854 Clausius establishes the importance of dQ T Clausius s theorem but does not yet name the quantity 1854 Rankine introduces his thermodynamic function later identified as entropy 1856 August Kronig publishes an account of the kinetic theory of gases probably after reading Waterston s work 1857 Clausius gives a modern and compelling account of the kinetic theory of gases in his On the nature of motion called heat 1859 James Clerk Maxwell discovers the distribution law of molecular velocities 1859 Gustav Kirchhoff shows that energy emission from a black body is a function of only temperature and frequency 1862 Disgregation a precursor of entropy was defined in 1862 by Clausius as the magnitude of the degree of separation of molecules of a body 1865 Clausius introduces the modern macroscopic concept of entropy 1865 Josef Loschmidt applies Maxwell s theory to estimate the number density of molecules in gases given observed gas viscosities 1867 Maxwell asks whether Maxwell s demon could reverse irreversible processes 1870 Clausius proves the scalar virial theorem 1872 Ludwig Boltzmann states the Boltzmann equation for the temporal development of distribution functions in phase space and publishes his H theorem 1873 Johannes Diderik van der Waals formulates his equation of state 1874 Thomson formally states the second law of thermodynamics 1876 Josiah Willard Gibbs publishes the first of two papers the second appears in 1878 which discuss phase equilibria statistical ensembles the free energy as the driving force behind chemical reactions and chemical thermodynamics in general citation needed 1876 Loschmidt criticises Boltzmann s H theorem as being incompatible with microscopic reversibility Loschmidt s paradox 1877 Boltzmann states the relationship between entropy and probability 1879 Jozef Stefan observes that the total radiant flux from a blackbody is proportional to the fourth power of its temperature and states the Stefan Boltzmann law 1884 Boltzmann derives the Stefan Boltzmann blackbody radiant flux law from thermodynamic considerations 1888 Henri Louis Le Chatelier states his principle that the response of a chemical system perturbed from equilibrium will be to counteract the perturbation 1889 Walther Nernst relates the voltage of electrochemical cells to their chemical thermodynamics via the Nernst equation 1889 Svante Arrhenius introduces the idea of activation energy for chemical reactions giving the Arrhenius equation 1893 Wilhelm Wien discovers the displacement law for a blackbody s maximum specific intensity1900 1944 edit1900 Max Planck suggests that light may be emitted in discrete frequencies giving his law of black body radiation 16 1905 Albert Einstein in the first of his miracle year papers argues that the reality of quanta would explain the photoelectric effect 17 1905 Einstein mathematically analyzes Brownian motion as a result of random molecular motion in his paper On the movement of small particles suspended in a stationary liquid demanded by the molecular kinetic theory of heat 1906 Nernst presents a formulation of the third law of thermodynamics 1907 Einstein uses quantum theory to estimate the heat capacity of an Einstein solid 1909 Constantin Caratheodory develops an axiomatic system of thermodynamics 18 1910 Einstein and Marian Smoluchowski find the Einstein Smoluchowski formula for the attenuation coefficient due to density fluctuations in a gas 1911 Paul Ehrenfest and Tatjana Ehrenfest Afanassjewa publish their classical review on the statistical mechanics of Boltzmann Begriffliche Grundlagen der statistischen Auffassung in der Mechanik 1912 Peter Debye gives an improved heat capacity estimate by allowing low frequency phonons 19 1916 Sydney Chapman and David Enskog systematically develop the kinetic theory of gases 1916 Einstein considers the thermodynamics of atomic spectral lines and predicts stimulated emission 1919 James Jeans discovers that the dynamical constants of motion determine the distribution function for a system of particles 1920 Meghnad Saha states his ionization equation 20 1923 Debye and Erich Huckel publish a statistical treatment of the dissociation of electrolytes 1924 Satyendra Nath Bose introduces Bose Einstein statistics in a paper translated by Einstein 1926 Enrico Fermi 21 and Paul Dirac 22 introduce Fermi Dirac statistics 1927 John von Neumann introduces the density matrix representation 23 establishing quantum statistical mechanics 1928 John B Johnson discovers Johnson noise in a resistor 24 25 1928 Harry Nyquist derives the fluctuation dissipation theorem a relationship to explain Johnson noise in a resistor 26 1931 Lars Onsager publishes his groundbreaking paper deriving the Onsager reciprocal relations 27 1938 Anatoly Vlasov proposes the Vlasov equation for a correct dynamical description of ensembles of particles with collective long range interaction 28 29 1939 Nikolay Krylov and Nikolay Bogolyubov give the first consistent microscopic derivation of the Fokker Planck equation in the single scheme of classical and quantum mechanics 30 31 1942 Joseph L Doob states his theorem on Gauss Markov processes 1944 Lars Onsager gives an analytic solution to the 2 dimensional Ising model including its phase transition 32 1945 present edit1945 1946 Nikolay Bogoliubov develops a general method for a microscopic derivation of kinetic equations for classical statistical systems using BBGKY hierarchy 33 34 1947 Nikolay Bogoliubov and Kirill Gurov extend this method for a microscopic derivation of kinetic equations for quantum statistical systems 1948 Claude Elwood Shannon establishes information theory 35 1957 Aleksandr Solomonovich Kompaneets derives his Compton scattering Fokker Planck equation 1957 Ryogo Kubo derives the first of the Green Kubo relations for linear transport coefficients 36 1957 Edwin T Jaynes publishes two papers detailing the MaxEnt interpretation of thermodynamics from information theory 37 38 1960 1965 Dmitry Zubarev develops the method of non equilibrium statistical operator which becomes a classical tool in the statistical theory of non equilibrium processes 1972 Jacob Bekenstein suggests that black holes have an entropy proportional to their surface area 1974 Stephen Hawking predicts that black holes will radiate particles with a black body spectrum which can cause black hole evaporation 1977 Ilya Prigogine wins the Nobel prize for his work on dissipative structures in thermodynamic systems far from equilibrium The importation and dissipation of energy could reverse the 2nd law of thermodynamicsSee also editTimeline of heat engine technology History of physics History of thermodynamics Timeline of information theory List of textbooks in thermodynamics and statistical mechanicsReferences edit Who Gets Credit for Inventing the Thermometer ThoughtCo Retrieved 2023 11 23 In 1662 he published a second edition of the 1660 book New Experiments Physico Mechanical Touching the Spring of the Air and its Effects with an addendum Whereunto is Added a Defence of the Authors Explication of the Experiments Against the Obiections of Franciscus Linus and Thomas Hobbes see J Appl Physiol 98 31 39 2005 Jap physiology org Online Hooke Robert Robert 1965 Micrographia s l Science Heritage p 12 Becher Johann Joachim 1635 1682 1738 Physica subterranea profundam subterraneorum genesin e principiis hucusque ignotis ostendens Ex officina Weidmanniana OCLC 3425904 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link CS1 maint numeric names authors list link Jenkins Rhys 1936 Links in the History of Engineering and Technology from Tudor Times Ayer Publishing p 66 ISBN 0 8369 2167 4 See Daniel Rutherford 1772 Dissertatio Inauguralis de aere fixo aut mephitico Inaugural dissertation on the air called fixed or mephitic M D dissertation University of Edinburgh Scotland English translation Leonard Dobbin 1935 Daniel Rutherford s inaugural dissertation Journal of Chemical Education 12 8 370 375 See also James R Marshall and Virginia L Marshall Spring 2015 Rediscovery of the Elements Daniel Rutherford nitrogen and the demise of phlogiston The Hexagon of Alpha Chi Sigma 106 1 4 8 Available on line at University of North Texas Lavoisier Antoine Laurent 1965 Elements of chemistry in a new systematic order containing all the modern discoveries Courier Dover Publications p 15 ISBN 0 486 64624 6 Prevost Pierre April 1791 Memoire sur l equilibre du feu Observations Sur la Physique in French XXXVIII 1 314 323 Brown Robert 1773 1858 1828 A brief account of microscopical observations made in the months of June July and August 1827 on the particles contained in the pollen of plants and on the general existence of active molecules in organic and inorganic bodies A and C Black OCLC 38057036 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link CS1 maint numeric names authors list link CLAPEYRON Benoit Paul Emile 1834 Memoire sur la puissance motrice de la chaleur OCLC 559435201 Waterston John J 1843 Thoughts on the mental functions being an attempt to treat metaphysics as a branch of the physiology of the nervous system London OCLC 328092289 Neglected Pioneers www math umd edu Retrieved 2020 12 20 Joule J P 1843 LII On the calorific effects of magneto electricity and on the mechanical value of heat The London Edinburgh and Dublin Philosophical Magazine and Journal of Science 23 154 435 443 doi 10 1080 14786444308644766 ISSN 1941 5966 Grove W R 1874 The correlation of physical forces 6th edition by W R Grove London Longmans Green doi 10 5962 bhl title 19475 Helmholtz Hermann v 1847 Uber die Erhaltung der Kraft eine physikalische Abhandlung OCLC 488622067 Planck Max 1858 1947 Zur Theorie des Gesetzes der Energieverteilung im Normalspectrum OCLC 15745309 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link CS1 maint numeric names authors list link Einstein Albert 1905 On a Heuristic Viewpoint Concerning the Production and Transformation of Light PDF Annalen der Physik In German Pogliani Lionello Berberan Santos Mario 2000 Constantin Caratheodory and the axiomatic thermodynamics PDF Journal of Mathematical Chemistry 28 1 313 doi 10 1023 A 1018834326958 S2CID 17244147 Retrieved May 30 2022 Debye Peter 1912 Zur Theorie der spezifischen Waerme Annalen der Physik in German 39 4 789 839 Bibcode 1912AnP 344 789D doi 10 1002 andp 19123441404 Saha Megh Nad 1920 LIII Ionization in the solar chromosphere Philosophical Magazine Series 6 40 238 472 488 doi 10 1080 14786441008636148 Fermi Enrico 1926 Sulla quantizzazione del gas perfetto monoatomico Rendiconti Lincei in Italian 3 145 9 translated as Zannoni Alberto 1999 12 14 On the Quantization of the Monoatomic Ideal Gas arXiv cond mat 9912229 Dirac Paul A M 1926 On the Theory of Quantum Mechanics Proceedings of the Royal Society A 112 762 661 77 Bibcode 1926RSPSA 112 661D doi 10 1098 rspa 1926 0133 JSTOR 94692 von Neumann John 1927 Wahrscheinlichkeitstheoretischer Aufbau der Quantenmechanik Gottinger Nachrichten 1 245 272 Anonymous 1927 Minutes of the Philadelphia Meeting December 28 29 30 1926 Physical Review 29 2 350 373 Bibcode 1927PhRv 29 350 doi 10 1103 PhysRev 29 350 Johnson J 1928 Thermal Agitation of Electricity in Conductors Physical Review 32 97 97 109 Bibcode 1928PhRv 32 97J doi 10 1103 physrev 32 97 Nyquist H 1928 Thermal Agitation of Electric Charge in Conductors Physical Review 32 1 110 113 Bibcode 1928PhRv 32 110N doi 10 1103 PhysRev 32 110 Onsager Lars 1931 02 15 Reciprocal Relations in Irreversible Processes I Physical Review American Physical Society APS 37 4 405 426 Bibcode 1931PhRv 37 405O doi 10 1103 physrev 37 405 ISSN 0031 899X A A Vlasov 1938 On Vibration Properties of Electron Gas J Exp Theor Phys in Russian 8 3 291 A A Vlasov 1968 The Vibrational Properties of an Electron Gas Soviet Physics Uspekhi 10 6 721 733 Bibcode 1968SvPhU 10 721V doi 10 1070 PU1968v010n06ABEH003709 S2CID 122952713 N N Bogolyubov Jr and D P Sankovich 1994 N N Bogolyubov and statistical mechanics Russian Math Surveys 49 5 19 49 doi 10 1070 RM1994v049n05ABEH002419 N N Bogoliubov and N M Krylov 1939 Fokker Planck equations generated in perturbation theory by a method based on the spectral properties of a perturbed Hamiltonian Zapiski Kafedry Fiziki Akademii Nauk Ukrainian SSR 4 81 157 in Ukrainian Onsager Lars 1944 02 01 Crystal Statistics I A Two Dimensional Model with an Order Disorder Transition Physical Review 65 3 4 117 149 Bibcode 1944PhRv 65 117O doi 10 1103 physrev 65 117 ISSN 0031 899X N N Bogoliubov 1946 Kinetic Equations Journal of Experimental and Theoretical Physics in Russian 16 8 691 702 N N Bogoliubov 1946 Kinetic Equations Journal of Physics USSR 10 3 265 274 Shannon Claude Elwood 1916 2001 September 1998 The mathematical theory of communication ISBN 978 0 252 09803 1 OCLC 967725093 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link CS1 maint numeric names authors list link Kubo Ryogo 1957 06 15 Statistical Mechanical Theory of Irreversible Processes I General Theory and Simple Applications to Magnetic and Conduction Problems Journal of the Physical Society of Japan 12 6 570 586 doi 10 1143 JPSJ 12 570 ISSN 0031 9015 Jaynes E T 1957 Information theory and statistical mechanics PDF Physical Review 106 4 620 630 Bibcode 1957PhRv 106 620J doi 10 1103 PhysRev 106 620 1957 Information theory and statistical mechanics II PDF Physical Review 108 2 171 190 Bibcode 1957PhRv 108 171J doi 10 1103 PhysRev 108 171 Retrieved from https en wikipedia org w index php title Timeline of thermodynamics amp oldid 1186473504, wikipedia, wiki, book, books, library,

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