Abstract
The mole and Avogadro’s number are two important concepts of science that provide a link between the properties of individual atoms or molecules and the properties of bulk matter. It is clear that an early theorist of the idea of these two concepts was Avogadro. However, the research literature shows that there is a controversy about the subjects of when and by whom the mole concept was first introduced into science and when and by whom Avogadro’s number was first calculated. Based on this point, the following five matters are taken into consideration in this paper. First, in order to base the subject matter on a strong ground, the historical development of understanding the particulate nature of matter is presented. Second, in 1811, Amedeo Avogadro built the theoretical foundations of the mole concept and the number 6.022 × 1023 mol−1. Third, in 1865, Johann Josef Loschmidt first estimated the number of molecules in a cubic centimetre of a gas under normal conditions as 1.83 × 1018. Fourth, in 1881, August Horstmann first introduced the concept of gram-molecular weight in the sense of today’s mole concept into chemistry and, in 1900, Wilhelm Ostwald first used the term mole instead of the term ‘gram-molecular weight’. Lastly, in 1889, Károly Than first determined the gram-molecular volume of gases under normal conditions as 22,330 cm3. Accordingly, the first value for Avogadro’s number in science history should be 4.09 × 1022 molecules/gram-molecular weight, which is calculated by multiplying Loschmidt’s 1.83 × 1018 molecules/cm3 by Than’s 22,330 cm3/gram-molecular weight. Hence, Avogadro is the originator of the ideas of the mole and the number 6.022 × 1023 mol−1, Horstmann first introduced the mole concept into science/chemistry, and Loschmidt and Than are the scientists who first calculated Avogadro’s number. However, in the science research literature, it is widely expressed that the mole concept was first introduced into chemistry by Ostwald in 1900 and that Avogadro’s number was first calculated by Jean Baptiste Perrin in 1908. As a result, in this study, it is particularly emphasised that Horstmann first introduced the mole concept into science/chemistry and the first value of Avogadro’s number in the history of science was 4.09 × 1022 molecules/gram-molecular weight and Loschmidt and Than together first calculated this number.
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References
Adúriz-Bravo, A.: Methodology and politics: a proposal to teach the structuring ideas of the philosophy of science through the pendulum. Sci. Educ.-Netherlands 13(7), 717 (2004)
Aleaddinoglu, G., Ozbakan, M., Ozkan, I., Ozkar, S., Gurbuz, A., Yilmaz, M.C., et al.: Fen Bilimleri 2 (Science 2): Ogretmen El Kitabi. Milli Egitim Basimevi, Istanbul (1995)
Avery, J.: Science and Society, 2nd edn. HC Ørsted Institute, Copenhagen (2005)
Avogadro, A.: Essai d’une manière de déterminer les masses relatives des molecules élémentaires des corps, et les proportions selon lesquelles elles entrent dans ces combinaisons. J. de Physique 73, 58–76 (1811) [Essay on a manner of determining the relative masses of the elementary molecules of bodies, and the proportions in which they enter into these compounds: Alembic Club Reprint No. 4, Edinburgh, 1890]. Retrieved 22 Aug 2011, from http://web.lemoyne.edu/~giunta/EA/AVOGADROann.HTML
Becker, P.: History and progress in the accurate determination of the Avogadro constant. Rep. Prog. Phys. 64(12), 1945 (2001)
Brush, S.G.: Should the history of science be rated X? Science 183, 1164 (1974)
Cannizzaro, S.: Sunto di un corso di filosofia chimica. Nuovo Cimento 7, 321–366 (1858) [Sketch of a course of chemical philosophy: Alembic Club Reprint No. 18, Edinburgh, 1910]. Retrieved 22 Aug 2011, from http://dbhs.wvusd.k12.ca.us/webdocs/Chem-History/Cannizzaro.html
Cerruti, L.: The mole, Amedeo Avogadro and others. Metrologia 31(3), 159 (1994)
Erduran, S.: Applying the philosophical concept of reduction to the chemistry of water: implications for chemical education. Sci. Educ.-Netherlands 14(2), 161 (2005)
Erduran, S., Adúriz-Bravo, A., Naaman, R.M.: Developing epistemologically empowered teachers: examining the role of philosophy of chemistry in teacher education. Sci. Educ.-Netherlands 16(9–10), 975 (2007)
Freire Jr., O., Tenório, R.M.: A graduate programme in history, philosophy and science teaching in Brazil. Sci. Educ.-Netherlands 10(6), 601 (2001)
Garrett, A.B.: The Flash of Genius. D Van Nostrand, Princeton, New Jersey (1968)
Gay-Lussac, J.L.: Mémoire sur la combinaison des substances gazeuses les unes avec les autres. Mémoires de la Société d’Arcueil 2, 207–234 (1809) [Memoir on the combination of gaseous substances with each other: Alembic Club Reprint No. 4, Edinburgh, 1890]. Retrieved 22 Aug 2011, from http://web.lemoyne.edu/~GIUNTA/EA/GAYLUSSACann.HTML
Giunta, C.J.: Using history to teach scientific method: the role of errors. J. Chem. Educ. 78(5), 623 (2001)
Giunta, C.J.: Some notes on Avogadro’s number, 6.022 × 1023. Retrieved 22 Aug 2011a, from http://gemini.tntech.edu/~tfurtsch/scihist/avogadro.htm
Giunta, C.J.: Jean Perrin (1870−1942): Brownian motion and molecular reality. Retrieved 22 Aug 2011b, from http://web.lemoyne.edu/~GIUNTA/perrin.html
Gladney, L.D.: Do we take atoms for granted? Retrieved 22 Aug 2011, from http://dept.physics.upenn.edu/courses/gladney/mathphys/Contents.html
Gorin, G.: Mole and chemical amount. J. Chem. Educ. 71(2), 114 (1994)
Griffith, W.P.: The group VIII platinum-group metals and the Periodic Table. Found. Chem. 12(1), 17 (2010)
Hampel, C.A., Hawley, G.G.: Glossary of Chemical Terms, 2nd edn. Van Nostrand, New York (1982)
Harrison, A.G.: John Dalton’s atomic theory: using the history and nature of science to teach particle concepts? (2002) Retrieved 22 Aug 2011, from http://www.aare.edu.au/02pap/har02049.htm
Hawthorne, R.M.: Avogadro’s number: early values by Loschmidt and others. J. Chem. Educ. 47(11), 751 (1970)
Hurd, D.L., Kipling, J.J. (eds.): The Origins and Growth of Physical Science, vol. 2. Pelican, Harmondsworth (1964)
Kauffman, G.B.: Károly Than (1834–1908), founder of modern Hungarian chemistry. J. Chem. Educ. 66(3), 213 (1989)
László, M.: Magyar Vegyészeti Múzeum: a magyar vegyészet arcképcsarnoka, Than Károly (2011). Retrieved 22 Aug 2011, from http://www.kfki.hu/chemonet/hun/mvm/arc/index.html
Lide, D.R. (ed.): Handbook of chemistry and physics, 73rd edn. CRC Press, Boca Raton, FL (1992–1993)
Lin, H., Hung, J., Hung, S.: Using the history of science to promote students’ problem-solving ability. Int. J. Sci. Educ. 24(5), 453 (2002)
Mahan, B.H.: University Chemistry, 2nd edn. Addison Wesley, London (1972)
Matthews, M.R.: A role for history and philosophy in science teaching. Interchange 20(2), 3 (1989)
Matthews, M.R.: History, philosophy, and science teaching: the present approachment. Sci. Educ.-Netherlands 1(1), 11 (1992)
Matthews, M.R.: Science Teaching: The Role of History and Philosophy of Science. Routledge, New York (1994)
Matthews, M.R.: Models in science and in science education: an introduction. Sci. Educ.-Netherlands 16(7–8), 647 (2007)
Murrell, J.N.: Avogadro and his constant. Helvetica Chimica Acta 84(6), 1314 (2001)
NIST (National Institute of Standards and Technology): CODATA internationally recommended values of the fundamental physics constants. Retrieved 22 Aug 2011, from http://physics.nist.gov/cuu/Constants/index.html
Partington, J.R.: A Short History of Chemistry, 3rd edn. Macmillan, New York (1960)
Pauling, L.: General Chemistry, 3rd edn. Dover, New York (1988)
Quílez, J.: A historical approach to the development of chemical equilibrium through the evolution of the affinity concept: some educational suggestions. Chem. Educ. Res. Prac. Eur. 5(1), 69 (2004)
Russell, C. William Nicholson (1753−1815). Retrieved 22 Aug 2011, from http://chem.ch.huji.ac.il/~eugeniik/history/nicholson.html (2011)
Sarikaya, M.: The application of an activity relating to the determination of Avogadro’s number in a class of first-year science students. Chem. Educator 9(1), 17 (2004)
Sarikaya, M.: Prospective teachers’ misconceptions about the atomic structure in the context of electrification by friction and an activity in order to remedy them. Int. Educ. J. 8(1), 40 (2007)
Seroglou, F., Koumaras, P.: The contribution of the history of physics in physics education: a review. Sci. Educ.-Netherlands 10(1 & 2), 153 (2001)
Szabadváry, F.: History of Analytical Chemistry. Translated from Hungarian by G. Svehla. Pergamon, Oxford (1966)
Than, K.: Die einheit des molekularvolumens der gase. Mathematishe und Naturwissenschaftliche Berichte aus Ungarn VI, 162 (1889)
Tsaparlis, G.: Molecules and atoms at the centre stage. Chem. Educ. Res. Prac. Eur. 2(2), 57 (2001)
Turco, F., Cerruti, L.: Osservazioni sulla quantità di sostanza e sulla mole II (About the mole and the amount of substance II)—Breve storia di una grandezza fondamentale. La Chimica Nella Scuola (CnS) 24(5), 147 (2002)
Vámos, É.: Three generations of natural scientists in Hungary, 1848–1918. In: Kokowski, M. (ed.) The Global and the Local: The History of Science and the Cultural Integration of Europe. Proceedings of the 2nd ICESHS, Cracow, Poland, 6–9 Sept 2006, pp. 274–288
Vámos, É.: Hungarian University Chemistry Buildings, 1860–2006. In: The 6th International Conference on the History of Chemistry, 28 Aug–1 Sept 2007, Leuven, Belgium
Watson, F.: Treating the Avogadro constant as a unity-dimensional conversion factor. Chem. Educator 12(4), 236 (2007)
Wernimont, E., Ventura, M., Garboden, G., Mullens, P.: Past and present uses of rocket grade: Hydrogen peroxide. In: International Hydrogen Peroxide Propulsion Conference, West Lafayette, USA (1999), Retrieved 22 Aug 2011, from http://hydrogen-peroxide-rocket.com/lit/history/H2O2_Conf_1999-Past_Present_Uses_of_Rocket_Grade_Hydrogen_Peroxide.pdf
Wisniak, J.: Amedeo Avogadro: the man, the hypothesis, and the number. Chem. Educator 5(5), 263 (2000)
Acknowledgments
I am indebted to Dr. George B. Kauffman of California State University, USA, and Dr. Mihály T. Beck and Dr. Zoltán Tóth of Debrecen University, Hungary, for providing me the references about Károly Than.
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Sarikaya, M. A view about the short histories of the mole and Avogadro’s number. Found Chem 15, 79–91 (2013). https://doi.org/10.1007/s10698-011-9128-7
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DOI: https://doi.org/10.1007/s10698-011-9128-7