Referencias bibliográficas de estequiometría analítica

(Ciencias de Joseleg)  (Química)  (Química cuantitativa)  (Estequiometría analítica)  (Ejercicios)   (Introducción)  (Historia)  (Estequiometría clásica)  (Nueva estequiometría)  (Reactivo limitante y reactivo en exceso)  (Titulaciones básicas)  (Pureza, rendimiento y eficiencia)  (Las gravimetrías)  (Estequiometría de gases)  (Análisis de composición)  (Análisis de cenizas)  (Referencias bibliográficas)

 

 Atkins, P. W., De Paula, J., & Keeler, J. (2018). Atkins’ physical chemistry. Oxford university press.

Bensaude-Vincent, B. (2007). Chemistry, an ontology-free science?

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 (11th ed.). Pearson; Prentice Hall.

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.

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.

Cooke, J. P. (1857). Chemical Problems and Reactions.

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

DeLanda, M. (2015). Philosophical chemistry: Genealogy of a scientific field. Bloomsbury Publishing.

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

García-García, J. L. (2020). El álgebra 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.

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

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

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

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

Kekulé, A. (1867). On some points of chemical philosophy. The Laboratory, 1(27 July).

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

Michałowska-Kaczmarczyk, A. M., Asuero, A. G., & Michałowski, T. (2015). “Why Not Stoichiometry” versus “Stoichiometry—Why Not?” Part I: General Context. Critical Reviews in Analytical Chemistry, 45(2), 166–188.

Morowitz, H. J. (1991). Les Atomes. Hospital Practice, 26(3), 45–47.

Padilla, K., & Furio-Mas, C. (2008). The importance of history and philosophy of science in correcting distorted views of ‘amount of substance’and ‘mole’concepts in chemistry teaching. Science & Education, 17(4), 403–424.

Partington, J. R. (1948). The Concepts of Substance and Chemical Element. Chymia, 1, 109–121.

Perrin, J. (1911). La réalité des molécules. Revue Scientifique, 25(16), 774–784.

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

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

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

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

Sostarecz, M. C., & Sostarecz, A. G. (2012). A conceptual approach to limiting-reagent problems. Journal of Chemical Education, 89(9), 1148–1151.

Thyssen, P. (2010). Mendeleev’s periodic law and the 19th century debates on atomism.

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

Viswanathan, B., & Razul, M. S. G. (2020). Simplification of Combustion Analysis. World Journal of Chemical Education, 8(2), 100–103.

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

Wurtz, C. A. (1877). Réponse à M. Berthelot sur l’atome. Comptes-Rendus de l’Académie Des Sciences, 84(23), 1264–1268.

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

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