6 REFERENCES

The primary sources are given in [1a] to [9] and the secondary sources begin with [10]. A more complete list of references can be found in [2c].

6.1 PRIMARY SOURCES

[1] Manual of Symbols and Terminology for Physicochemical Quantities and Units

Template:Anchor(a) 1st ed., M. L. McGlashan. Pure Appl. Chem., 21:1−38, 1970.

Template:Anchor(b) 2nd ed., M. A. Paul. Butterworths, London, 1975.

Template:Anchor(c) 3rd ed., D. H. Whiffen. Pure Appl. Chem., 51:1−36, 1979.

Template:Anchor(d) D. H. Whiffen. Appendix I−Definitions of Activities and Related Quantities. Pure Appl. Chem., 51:37−41, 1979.

Template:Anchor(e) D. H. Everett. Appendix II−Definitions, Terminology and Symbols in Colloid and Surface Chemistry, Part I. Pure Appl. Chem., 31:577−638, 1972.

Template:Anchor(f) J. Lyklema and H. van Olphen. Appendix II−Definitions, Terminology and Symbols in Colloid and Surface Chemistry, Part 1.13: Selected Definitions, Terminology and Symbols for Rheological Properties. Pure Appl. Chem., 51:1213−1218, 1979.

Template:Anchor(g) M. Kerker and J. P. Kratochvil. Appendix II−Definitions, Terminology and Symbols in Colloid and Surface Chemistry, Part 1.14: Light Scattering. Pure Appl. Chem., 55:931−941, 1983.

Template:Anchor(h) R. L. Burwell Jr. Part II: Heterogeneous Catalysis. Pure Appl. Chem., 46:71−90, 1976.

Template:Anchor(i) R. Parsons. Appendix III−Electrochemical Nomenclature. Pure Appl. Chem., 37:499−516, 1974.

Template:Anchor(j) J. D. Cox. Appendix IV−Notation for States and Processes, Significance of the Word "Standard" in Chemical Thermodynamics, and Remarks on Commonly Tabulated Forms of Thermodynamic Functions. Pure Appl. Chem., 54:1239−1250, 1982.

Template:Anchor(k) K. J. Laidler. Appendix V−Symbolism and Terminology in Chemical Kinetics. Pure Appl. Chem., 53:753−771, 1981.

[2]  Template:Anchor(a) I. Mills, T. Cvita˘s, K. Homann, N. Kallay and K. Kuchitsu. Quantities, Units and Symbols in Physical Chemistry. Blackwell Science, Oxford, 1st edition, 1988.

(b) I. Mills, T. Cvita˘s, K. Homann, N. Kallay and K. Kuchitsu. Quantities, Units and Symbols in Physical Chemistry. Blackwell Science, Oxford, 2nd edition, 1993.

(c) E. R. Cohen, T. Cvita˘s, J. G. Frey, B. Holmström, K. Kuchitsu, R. Marquardt, I. Mills, F. Pavese, M. Quack, J. Stohner, H. L. Strauss, M. Takami, A. J. Thor. Quantities, Units and Symbols in Physical Chemistry. IUPAC & The Royal Society of Chemistry, Cambridge, 3rd edition 2007, 3rd printing, 2011.

(d) Nomenklaturniye Pravila IUPAC po Khimii, Vol. 6, Fizicheskaya Khimiya, Nacionalnii Komitet Sovetskih Khimikov, Moscow, 1988.

(e) M. Riedel. A Fizikai-kémiai Definiciók és Jelölések. Tankönyvkiadó, Budapest, 1990.

(f) K. Kuchitsu. Butsurikagaku de Mochiirareru Ryo, Tan-i, Kigo. Kodansha, Tokyo, 1991.

(g) K.-H. Homann, M. Hausmann. Größen, Einheiten und Symbole in der Physikalischen Chemie. VCH, Weinheim, 1996.

(h) D. I. Marchidan. Marimi, Unita i si Simboluri în Chimia Fizica. Editura Academiei Române, Bucharest, 1996.

(i) A. P. Masiá, J. M. Guil, J. E. Herrero, A. R. Paniego. Magnitudes, Unidades y Símbolos en Química Física. Fundació Ramón Areces & Real Sociedad Espa˘nola de Química, Madrid, 1999.

(j) J. M. Costa. Magnituds, Unitats i Símbols en Química Física. Institut d’Estudis Catalans, Barcelona, 2004.

(k) E. R. Cohen, T. Cvita˘s, J. G. Frey, B. Holmström, K. Kuchitsu, R. Marquardt, I. Mills, F. Pavese, M. Quack, J. Stohner, H. L. Strauss, M. Takami, A. J. Thor. Grandeurs, unités et symboles de la chimie physique. De Boeck, Bruxelles, 2012 Trad. de la 3ème édition anglaise par R. Marquardt, M. Mottet, F. Rouquérol, J. Toullec.

(l) R. C. Rocha-Filho, R. Fausto. Grandezas, Unidades e Símbolos em Físico-Química. EditSBQ, 2018. (available online http://www.sbq.org.br/livroverde/)

(m) E. R. Cohen, T. Cvita˘s, J. G. Frey, B. Holmström, K. Kuchitsu, R. Marquardt, I. Mills, F. Pavese, M. Quack, J. Stohner, H. L. Strauss, M. Takami, A. J. Thor. Quantities, Units and Symbols in Physical Chemistry, translated in Japanese by the Chemical Society of Japan, and the National Metrology Institute, National Institute of Advanced Science and Technology, Kodansha Scientific, Tokyo, 2009.

[3] Bureau International des Poids et Mesures. Le Système International d’Unités (SI). 9th French and English Edition, BIPM, Sèvres, 2019 (available online https://www.bipm.org/en/publications/si-brochure/). [4] E. R. Cohen and P. Giacomo. Symbols, Units, Nomenclature and Fundamental Constants in Physics. 1987 Revision, Document I.U.P.A.P.−25 (IUPAP-SUNAMCO 87−1) also published in: Physica, 146A:1−67, 1987. [5] International Standards, ISO International Organization for Standardization, Geneva, Switzerland

(a) ISO 80000−1: 2009, Quantities and units − Part 1: General Technical Corrigendum 1: 2011

(b) ISO 80000−2: 2019, Quantities and units − Part 2: Mathematics

(c) ISO 80000−5: 2019, Quantities and units − Part 5: Thermodynamics

(d) ISO 80000−7: 2019, Quantities and units − Part 7: Light and radiation

(e) ISO 80000−9: 2019, Quantities and units − Part 9: Physical chemistry and molecular physics

(f) ISO 80000−11: 2019, Quantities and units − Part 11: Characteristic numbers

[6] ISO 1000: 1992, SI Units and recommendations for the use of their multiples and of certain other units Amendment 1: 1998

[7] International Standard, IEC International Electrotechnical Commission, Geneva. IEC 60027−2, 2005.

[8] Evaluation of measurement data – Guide to the expression of uncertainty in measurement (GUM), Joint Committee for Guides in Metrology JCGM 100: 2008 (available online https://www.bipm.org/en/publications/guides/gum.html).

[9] International vocabulary of metrology – Basic and general concepts and associated terms (VIM), 3rd edition, 2012 (available online https://www.bipm.org/en/publications/guides/vim.html).

6.2 SECONDARY SOURCES

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