Referencias bibliográficas de termoquímica básica

(Ciencias de Joseleg) (Química) (Química cuantitativa) (Termoquímica) (Ejercicios)  (Introducción) (Historia) (Energía) (Sistema, alrededores y calor) (Primera ley de la termodinámica) (Entalpía) (Entalpía de la reacción) (Capacidad calorífica y calor específico) (Calorimetría a volumen constante)  (Calorimetría a presión constante) (Ley de Hess) (Entalpía de formación) (Calor de solución y disolución) (Termoquímica de los alimentos) (Termoquímica de los combustibles) (Energía del futuro) (Referencias bibliográficas)

 

Bacon, F. (1878). Novum organum. Clarendon press.

Baeza-Baeza, J. J., & García-Alvarez-Coque, M. C. (2014). Extent of Reaction Balances: A Convenient Tool to Study Chemical Equilibria. World J. Chem. Educ, 2, 54–58. Retrieved from https://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.1015.5804&rep=rep1&type=pdf

Bernoulli, D. (1738). Hydrodynamica, sive de Viribus et Motibus Fluidorum Commentarii (hydrodynamics, or commentaries on the forces and motions of fluids) Basel.

Boyle, R. (1911). The Sceptical Chymist: The Classic 1661 Text. Courier Dover Publications.

Brown, A. (1999). Modern Thermodynamics: From Heat engines to Dissipative Structures. Proceedings of the Institution of Mechanical Engineers, 213(1), 63.

Brown, L., & Holme, T. (2013). Introduction to Chemistry.

Brown, T. L., LeMay, H. E. J., Bursten, B. E., Murphy, C. J., Woodward, P. M., & Stoltzfus, M. W. (2017). Chemistry, the central science (13th ed.). Boston: Pearson.

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

Burdge, J., & Overby, J. (2018). Chemistry: atoms first (3rd ed.). McGraw-Hill Education.

Buyse, F. (2020). Heat in Renaissance Philosophy.

Canagaratna, S. G. (2000). The use of extent of reaction in introductory courses. Journal of Chemical Education, 77(1), 52. Retrieved from https://pubs.acs.org/doi/abs/10.1021/ed077p52

Carayannis, E. G., Draper, J., & Bhaneja, B. (2021). Towards fusion energy in the Industry 5.0 and Society 5.0 context: Call for a global commission for urgent action on fusion energy. Journal of the Knowledge Economy, 12(4), 1891–1904.

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Cercignani, C. (2001). The Rise of Statistical Mechanics. In Chance in Physics (pp. 25–38). Springer.

Chalmers, A. (2009). Atomism: Science or Philosophy? In The Scientist’s Atom and the Philosopher’s Stone (pp. 1–17). Springer.

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

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

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

Clausius, R. (1857a). Ueber die Art der Bewegung, welche wir Wärme nennen. Annalen Der Physik, 176(3), 353–380.

Clausius, R. (1857b). XI. On the nature of the motion which we call heat. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 14(91), 108–127.

Croce, A. E. (2002). The application of the concept of extent of reaction. Journal of Chemical Education, 79(4), 506.

De Donder, T., & Van Rysselberghe, P. (1936). Thermodynamic theory of affinity (Vol. 1). Stanford university press.

Fox, R. (2006). What was ‘crucial’about Rumford’s experiments on the nature of heat? Atti Del XI Convegno Nazionale Di Storia e Fondamenti Della Chimica, Roma, Accademia Nazionale Delle Scienze Detta Dei XL, 415–425.

García-García, J. L. (2021). Hacia un equilibrio químico verdaderamente analítico. Educación Química, 32(1), 133–146. Retrieved from http://revistas.unam.mx/index.php/req/article/view/75075

García García, J. L. (2020). El algebra de la estequiometría. Educación Química, 31(1), 138–150.

Garst, J. F. (1974). The extent of reaction as a unifying basis for stoichiometry in elementary chemistry. Journal of Chemical Education, 51(3), 194. Retrieved from https://files.eric.ed.gov/fulltext/EJ1179603.pdf

Gibbs, J. W. (1878). On the equilibrium of heterogeneous substances. American Journal of Science, 3(96), 441–458.

Griffiths, J. G. (1955). The Orders of Gods in Greece and Egypt (According to Herodotus). The Journal of Hellenic Studies, 75, 21–23.

Hanyak Jr, M. E. (2014). Extent of Reaction or Events of Reaction?

IUPAC, McNaught, A. D., & Wilkinson, A. (2019). extent of reaction, ξ. In Compendium of Chemical Terminology, 2nd ed. (the “Gold Book”) (2nd ed.). Blackwell Scientific Publications, Oxford. Retrieved from https://goldbook.iupac.org/terms/view/E02283

Joule, J. P. (1854). James Prescott Joule. Children, 1000(1847).

Kenny, A. (1964). Vacuum Theory and Technique Greek Science. Transactions of the Newcomen Society, 37(1), 47–56.

Lecoustre, V. R. (2009). Numerical investigations of gaseous spherical diffusion flames. University of Maryland, College Park.

Manoharan, Y., Hosseini, S. E., Butler, B., Alzhahrani, H., Senior, B. T. F., Ashuri, T., & Krohn, J. (2019). Hydrogen fuel cell vehicles; current status and future prospect. Applied Sciences, 9(11), 2296.

Mendelssohn, K. (1977). Quest for absolute zero: the meaning of low temperature physics.

Meschel, S. V. (2020). A brief history of heat measurements by calorimetry with emphasis on the thermochemistry of metallic and metal-nonmetal compounds. Calphad, 68, 101714.

Middleton, W. E. K. (1963). The place of Torricelli in the history of the barometer. Isis, 54(1), 11–28.

Moretti, G. (2015). The “extent of reaction”: a powerful concept to study chemical transformations at the first-year general chemistry courses. Foundations of Chemistry, 17(2), 107–115.

Mousavi, A. (2018). Stoichiometry of equations through the Inverse de Donder relation. Chemistry Teacher International, 1(1). Retrieved from https://www.degruyter.com/document/doi/10.1515/cti-2018-0006/html

Newburgh, R., & Leff, H. S. (2011). The Mayer-Joule principle: The foundation of the first law of thermodynamics. The Physics Teacher, 49(8), 484–487.

Newell, S. B. (1980). Chemistry: an introduction. Little Brown and Company.

Onorato, P., Malgieri, M., Polesello, M., Salmoiraghi, A., & Oss, S. (2019). From chance to the physical laws: Toy models to connect the microscopic and macroscopic understanding of physical phenomena. Il Nuovo Cimento C, 42(5), 1–13.

Redhead, P. A. (1999). The ultimate vacuum. Vacuum, 53(1), 137–149.

Siddiqui, N. (2018). PERSPECTIVE OF ‘UNṢUR-E-NĀR (FIRE AS AN ELEMENT) AND ENERGY IN UNANI MEDICINE.

Styer, D. (2019). Entropy as disorder: History of a misconception. The Physics Teacher, 57(7), 454–458.

Taylor, F. S. (1942). The origin of the thermometer. Annals of Science, 5(2), 129–156.

West, J. B. (2013). Torricelli and the ocean of air: the first measurement of barometric pressure. Physiology, 28(2), 66–73.

Wikipedia, S. (2019). Extent of reaction. Retrieved January 31, 2020, from https://en.wikipedia.org/wiki/Extent_of_reaction#cite_note-2

Xue, T.-W., & Guo, Z.-Y. (2019). What is the real Clausius statement of the second law of thermodynamics? Entropy, 21(10), 926.