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References
Chapter 1 (Clausius)
S. Carnot (1824). Réflexious sur la puissance motrice du feu et sur les machines propres à développer cette puissance. A Paris chez Bachelier, libraire Quai des Augustins No.55.
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Translation: (1856). On a modified form of the second fundamental principle in the mechanical theory of heat. Philosophical Magazine (4) 12.
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Chapter 2 (Carathéodory)
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C. Carathéodory (1925). Über die Bestimmung der Energie und der absoluten Temperatur mit Hilfe von reversiblen Prozessen. Sitzgsber. d. preuß. Akad. d. Wissenschaften. Phys.math.Kl.
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W. Thomson (later Lord Kelvin) (1848). On an absolute thermometric scale founded on Carnot’s theory of the motive power of heat and calculated from Regnault’s observations. Philosophical Magazine (3) 33, 313–317.
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Chapter 3 (Boltzmann)
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M. Planck (1912). Über neuere thermodynamische Theorien (Nernst’sches Wäarmetheorem und Quantenhypothese). Vortrag in der Deutschen Chemischen Gesellschaft in Berlin. Akad. Verlagsges. Leipzig.
J.D. Fast (1960). Entropie. Die Bedeutung des Entropiebegriffes und seine Anwendung in Wissenschaft und Technik. Philips’ Technische Bibliothek. Also availabe in Dutch, English, French and Spanish.
Chapter 4 (Equations of state)
J.D. van der Waals (1873). Die Kontinuität des gasförmigen und flüssigen Zustandes. Dissertation, Leiden.
R. Becker (1960). Theorie der Wärme. Springer, Heidelberg.
Chapter 5 (Gases and Rubber)
I. Müller, P. Strehlow (2004). Rubber and Rubber Balloons — Paradigms of thermodynamics. Lecture Notes in Physics. Springer, Heidelberg.
W. Kuhn (1934). Über die Gestalt fadenförmiger Moleküle in Lösungen. Kolloidzeitschrift68, p.2.
K.H. Meyer & C. Ferri (1935). Sur l’élasticité du caoutchouc. Helv. Chim. Acta29, p. 570.
W. Kuhn (1936). Beziehungen zwischen Molekülgröße, statistischer Molekülgestalt und elastischen Eigenschaften hochpolymerer Stoffe. Kolloidzeitschrift76, p.258.
P.J. Flory (1953). Principles of Polymer Chemistry. Cornell University Press, Ithaca, London.
R.B. Bird, R.C. Armstrong, O. Hassager (1976). Dynamics of Polymeric Liquids. Vol. I Fluid Mechanics, Vol. II Kinetic Theory, J. Wiley & Sons, New York, London.
Chapter 6 (Statistical thermodynamics)
J.W. Gibbs (1902). Elementary principles in statistical mechanics, developed with especial reference to the rational foundation of thermodynamics. New York and London.
E. Schrödinger (1948). Statistical thermodynamics. A course of seminar lectures. Cambridge at the University Press.
Chapter 7 through 12 (Entropy vs. Energy)
A. Klippel, I. Müller (1997). Plant growth — a thermodynamicist’s view. Cont. Mech. & Thermodynamics 9.
E. Schrödinger (1944). What is life? The physical aspect of the living cell. Cambridge at the University Press.
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Chapter 13 (Shape memory)
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Chapter 14 (Third law)
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W. Nernst (1924). Die theoretischen und experimentellen Grundlagen des neuen Wärmesatzes (2. Aufl.) Verlag W. Knapp. Halle (Saale).
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Chapter 15 (Zeroth law of thermodynamics)
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I. Müller, P. Strehlow (2003). Kinetic Temperature and Thermodynamic Temperature. Temperature: Its Measurement and Control in Science and Industry, 7. (Dean C. Ripple (ed.)). American Institute of Physics.
Chapter 16 (Gibbs paradox and degenerate gases)
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Chapter 17 (Thermodynamics of irreversible processes)
G. Jaumann (1911). Geschlossenes System physikalischer und chemischer Differentialgesetze. Sitzungsbericht Akad. Wiss. Wien, 12(IIa).
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B.D. Coleman, W. Noll (1963). The Thermodynamics of Elastic Materials with Heat Conduction and Viscosity. Arch. Rational Mech. Anal.13.
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Chapter 18 and 19 (Radiation Thermodynamics)
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W. Weiss (1996). The balance of entropy on earth. Cont. Mech. & Thermodyn.8.
W. Ebeling (1991). Chaos — Ordnung — Information. Harri Deutsch, Thun-Frankfurt/Main.
A. Stahl (1993). Entropy and Environment. In: Statistical Physics and Thermodynamics of Nonlinear Nonequilibrium Systems. (W. Ebeling, W. Muschik, eds.) World Scientific Publ. Co.
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Chapter 20 (Sociobiology)
J. Mimkes (1995). Binary Alloys as a Model for the Multicultural Society. J. of Thermal Analysis. 43.
J. Maynard-Smith, G.R. Price (1973). The Logic of Animal Conflict. Nature. 246.
R. Dawkins (1989). The Selfish Gene. Oxford University Press.
P.D. Straffin (1993). Game Theory and Strategy. New Mathematical Library. The Math. Assoc. of America, 36.
I. Müller (2002). Socio-thermodynamics — integration and segregation in a population. Cont. Mech. & Thermodyn. 14.
N. Georgescu-Roegen (1971). The Entropy Law and the Economic Process. Harvard University Press, Cambridge, Mass.
Chapter 21 (History of Thermodynamics)
W.E. Knowles-Middleton (1966). A History of the Thermometer and its Use in Meteorology. Johns Hopkins Press. Baltimore.
Le Opere de Galilei Galileo (1902). Ed. Naz. Vol. XII. Tipografia di G. Barbera.
I. Asimov (1975). Asimov’s Biographical Encyclopedia of Science and Technology. Pan Books, London.
P. Lenard (1941). Gro§e Naturforscher. J.F. Lehmann Verlag München.
H. Schulz, H. Weckbach (1964). Robert Mayer. Sein Leben und sein Werk. Veröffentlichung des Archivs der Stadt Heilbronn.
C. Kirsten, K. Zeisler (Hrg) (1982). Hermann Helmholtz. Über die Erhaltung der Kraft. Dokumente der Wissenschaftsgeschichte. Akademie Verlag. Berlin.
S.G. Brush (1978). The Temperature of History. Phases of Science and Culture in the Ninetheenth Century. Burt Franklin, New York
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(2005). References and annotations. In: Entropy and Energy. Interaction of Mechanics and Mathematics. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-32380-5_23
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