Referencias bibliográficas de los modelos atómicos cuánticos

(Ciencias de Joseleg)(Química)(La materia)(El átomo físico cuántico)(Ejercicios resueltos)(Introducción)(La caída de la teoría atómica clásica)(La luz entre Planck y Einstein)(El modelo matemático del átomo de Bohr)(Conceptos del átomo de Bohr)(El modelo atómico de Sommerfeld)(El modelo atómico moderno)(Las formas de los orbitales)( Impacto y paradojas del modelo atómico moderno)(Configuraciones electrónicas)(Referencias bibliográficas)(Versión documento word)

 

Bacciagaluppi, G., & Valentini, A. (2009). Quantum theory at the crossroads: reconsidering the 1927 Solvay conference. Cambridge University Press.

Bahoueddine, T. (2016). Beyond the Madelung-Klechkowski Rule of aufbau Orbital Filling Principle. World Journal of Chemical Education, 3(6), 160–167.

Bell, J. S. (1964). On the einstein podolsky rosen paradox.

Bennett, C. H., & Wiesner, S. J. (1992). Communication via one-and two-particle operators on Einstein-Podolsky-Rosen states. Physical review letters, 69(20), 2881.

Blinn, J. F., & Goodstein, D. (1985). El Universo Mecánico: el universo cuántico mecánico. USA: PBS.

Borrelli, A. (2009). The emergence of selection rules and their encounter with group theory, 1913–1927. Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics, 40(4), 327–337.

Brady, J. E., & Humiston, G. E. (1986). General Chemistry: Principles and Structure. Wiley & Sons.

Brown, T. L., LeMay, H. E. J., Bursten, B. E., Murphy, C. J., & Woodward, P. (2009). Chemistry the central science (11a ed.). Pearson; Prentice Hall.

Brown, T. L., LeMay, H. E. J., Bursten, B. E., Murphy, C. J., Woodward, P., & Stoltzfus, M. W. (2015). Chemistry the Central Science.

Chang, R. (2006). Chang’s “General Chemistry - Essential Concepts” (4a ed.). McGraw-Hill New York.

Chang, R. (2010). Chemistry (10a ed.). McGraw-Hill New York.

Chang, R., & Overby, J. (2011). General Chemistry,Th e Essential Concepts (11a ed.). McGraw-Hill New York.

DeYoung, D. B. (1998). Creation and quantum mechanics. Institute for Creation Research.

Ebbing, D. D., & Gammon, S. D. (2008). General chemistry. (Houghton Mifflin Company, Ed.) (9a ed.). Bonston.

Ebbing, D. D., & Gammon, S. D. (2017). General chemistry (11a ed.). Boston: Cengage Learning.

Eckert, M. (2014). How Sommerfeld extended Bohr’s model of the atom (1913–1916). The European Physical Journal H, 39(2), 141–156.

Gilbert, T. R., Kirss, R. V, Foster, N., & Davies, G. (2012). Chemistry, the science in context (3a ed.). W. W. Norton & Company, Inc.

Gorzynski, J. (2010). General, organic, and biological chemistry (1a ed.). McGraw-Hill Education.

Gribbin, J. (2011). In search of Schrodinger’s cat: Quantum physics and reality. Bantam.

Hagley, E., Maitre, X., Nogues, G., Wunderlich, C., Brune, M., Raimond, J.-M., & Haroche, S. (1997). Generation of Einstein-Podolsky-Rosen pairs of atoms. Physical Review Letters, 79(1), 1.

Hanich, L., Holtzman, S., Pope, B., Braga, B., Tyson, N. G., Silvestri, A., & Sagan, C. (2014). Cosmos: A Spacetime Odyssey: Sisters of the Sun. USA: Twentieth Century Fox Home Entertainment Ltd.

Hansen, A. J. (1976). The Dice of God: Einstein, Heisenberg, and Robert Coover. En Novel: A Forum on Fiction (Vol. 10, pp. 49–58). JSTOR.

Heilbron, J. L. (2001). History in science education, with cautionary tales about the agreement of measurement and theory. En Science Education and Culture (pp. 5–15). Springer.

Howard, D. (2004). Who invented the “Copenhagen Interpretation”? A study in mythology. Philosophy of Science, 71(5), 669–682.

Jespersen, N. D., Brady, J. E., & Hyslop, A. (2012). Chemistry The Molecular Nature of Matter (6a ed.). USA: Wiley.

Jönsson, C. (1961). Elektroneninterferenzen an mehreren künstlich hergestellten Feinspalten. Zeitschrift für Physik, 161(4), 454–474.

Jönsson, C. (1974). Electron diffraction at multiple slits. Am. J. Phys, 42(1), 4–11.

Khoon, K. A. (2011). The cornerstones of modern physics. College Student Journal, 45(3), 630.

Langevin-Joliot, H. (2011). Marie Curie and her time. Chemistry International, 33(1), 4.

Matamála, M., & Gonzalez, P. (1976). Química General. Cultural.

Mehra, J. (2012). The Solvay Conferences on physics: aspects of the development of physics since 1911. Springer Science & Business Media.

Merli, P. G., Missiroli, G., & Pozzi, G. (1976). On the statistical aspect of electron interference phenomena. Am. J. Phys, 44(3), 306–307.

Nauenberg, M. (1989). Quantum wave packets on Kepler elliptic orbits. Physical Review A, 40(2), 1133.

Niaz, M., & Cardellini, L. (2010). What Can the Bohr− Sommerfeld Model Show Students of Chemistry in the 21st Century? Journal of Chemical Education, 88(2), 240–243.

Nisio, S. (1973). The formation of the Sommerfeld quantum theory of 1916. Japanese studies in the history of science, 12, 39–78.

Park, B. S., & Stetten Jr, D. (2001). A Principle Written in Diagrams: The Aufbau Principle for Molecules and Its Visual Representations, 1927–1932. En Tools and Modes of Representation in the Laboratory Sciences (pp. 179–198). Springer.

Pauli, W. (1994). Exclusion principle and quantum mechanics. En Writings on Physics and Philosophy (pp. 165–181). Springer.

Petrucci, R. H., Harwood, W. S., & Herring, F. G. (2003). Química General (8a ed.). Prentice Hall.

Petrucci, R. H., Herring, F. G., Madura, J. D., & Bissonnette, C. (2010). General Chemistry Principles and Modern Applications (10a ed.). Pearson.

Raimond, J.-M., Brune, M., & Haroche, S. (2001). Manipulating quantum entanglement with atoms and photons in a cavity. Reviews of Modern Physics, 73(3), 565.

Raymond, K. W. (2014). General, Organic, and Biological Chemistry, an Integrated Aproach (4a ed.). Wiley.

Rosa, R. (2012). The Merli–Missiroli–Pozzi two-slit electron-interference experiment. Physics in perspective, 14(2), 178–195.

Scheck, F. (2007). Quantum Physics (1a ed.). Mainz: Springer.

Schrödinger, E. (1926a). An undulatory theory of the mechanics of atoms and molecules. Physical Review, 28(6), 1049.

Schrödinger, E. (1926b). Quantisierung als eigenwertproblem. Annalen der physik, 385(13), 437–490.

Schrödinger, E. (1926c). Über das Verhältnis der Heisenberg‐Born‐Jordanschen Quantenmechanik zu der meinem. Annalen der Physik, 384(8), 734–756.

Seth, S. (2008). Crafting the quantum: Arnold Sommerfeld and the older quantum theory. Studies in History and Philosophy of Science Part A, 39(3), 335–348.

Silberberg, M. S. (2009). Chemistry, The Molecular Nature of Matter and Change (5a ed.). McGraw-Hill Education.

Sommerfeld, A. (1920a). Allgemeine spektroskopische Gesetze, insbesondere ein magnetooptischer Zerlegungssatz. Annalen der Physik, 368(19), 221–263.

Sommerfeld, A. (1920b). Ein Zahlenmysterium in der Theorie des Zeemaneffektes. Naturwissenschaften, 8(4), 61–64.

Swift, A. R., & Wright, R. (1980). Generalized Stern–Gerlach experiments and the observability of arbitrary spin operators. Journal of Mathematical Physics, 21(1), 77–82.

Tegmark, M., & Wheeler, J. A. (2001). 100 Years of the Quantum. arXiv preprint quant-ph/0101077.

Timberlake, K. C. (2015). Chemistry An Introduction to General, Organic, and Biological Chemistry (15a ed.). USA: Pearson.

Togan, E., Chu, Y., Trifonov, A. S., Jiang, L., Maze, J., Childress, L., … Zibrov, A. S. (2010). Quantum entanglement between an optical photon and a solid-state spin qubit. Nature, 466(7307), 730–734.

Valentini, A. (2009). Beyond the quantum. Physics World, 22(11), 32.

Welch, C. J., Ray, S., Melendez, J., Fare, T., & Leach, M. (2010). Virtual conferences becoming a reality. Nature chemistry, 2(3), 148–152.

Whitten, K. W., Davis, R. E., Peck, M. L., & Stanley, G. G. (2010). Chemistry (9a ed.). Brooks/Cole.

Zeeman, P. (1897). On the Influence of Magnetism on the Nature of the Light Emitted by a Substance. The Astrophysical Journal, 5, 332.

Zumdahl, S. S., & Zumdahl, S. A. (2007). Chemistry (7a ed.). Boston: Houghton Mifflin Company.

Zumdahl, S. S., Zumdahl, S. A., & DeCoste, D. J. (2018). Chemistry (10a ed.). Cengage Learning.