Bibliografía del Curso
- An introduction to thermodynamics:
the kinetic theory of gases and statistical mechanics,
Francis W. Sears. - Thermodynamics,
Enrico Fermi. - Fundamentos de Física Moderna,
Robert M. Eisberg. - Fundamental University Physics, vol III
(Quantum and Statistical Physics),
Marcelo Alonso and Edward Finn. - Introduction to Quantum Mechanics,
David J. Griffiths.
Otras Referencias Recomendadas
- Fundamentals of Engineering Thermodynamics,
M.J. Moran and H.N. Shapiro. - Thermodynamics and Statistical Physics, Don C. Kelly.
- Thermodynamics and Statistical Mechanics,
Peter Landsberg. - Classical Thermodynamics,
G. van Wylen, R. Sonntag and C. Borgnakke. - Introducción a la Termodinámica
Clásica,
Leopoldo García-Colin Scherer. - Termodinámica Química y
de los Procesos Irreversibles,
M. Criado Sancho y J. Casas Vazquez. - Temas de Termodinámica,
M. Czekalski. - Statistical mechanics,
Kerson Huang. - Temperatures very low and very high,
M. Zemansky. - Asimov on Physics,
Isaac Asimov. - An Introduction to Quantum Physics,
A.P. French and E.F. Taylor. - Conceptos de Física Moderna,
Arthur Beiser. - Principles of Modern Physics,
Leighton. - Michael’s Fowler Modern Physics Course,
University of Virginia. - Physics,
Marcelo Alonso and Edward Finn. - Introductory Quantum Mechanics,
Richard L. Liboff. - Modern Physics,
2ndedition, Kenneth Krane. - Quantum Mechanics,
Eugen Merzbacher. - Mecánica cuántica, teoría
no relativista,
Lew Landau and E.M Lifshitz. - The Feynman Lectures on Physics III,
Richard Feynman, R. Leighton and M. Sands. - The physical principles of the quantum theory,
Werner Heisenberg. - The story of spin,
Sin-Itiro Tomonaga. - Quantum Theory and its Applications,
B. Cagnac and J. C. Pebay-Peyroula. - Six not-so-easy Pieces,
Richard Feynman. - From X-rays to Quarks,
Emilio Segre.