domingo, 25 de diciembre de 2016

13 REFERENCIAS BIBLIOGRÁFICAS DE UNIDADES Y MEDIDAS


  1. Agnoli, P., & D’Agostini, G. (2004). Why does the meter beat the second? arXiv Preprint physics/0412078.
  2. Alder, K. (2003). The Measure of all Things, The Seven Year Odyssey That Transformed the World, London. Abacus Edition.
  3. Arboleda, L. C. (2013). Introducción del Sistema Métrico Decimal en Colombia a mediados del siglo XIX.
  4. Barber, E. (2015). The Bourgeoisie in 18th-Century France. Princeton University Press.
  5. Bardi, J. S. (2009). The calculus wars: Newton, Leibniz, and the greatest mathematical clash of all time. Perseus Books Group.
  6. Bell, J. A. (2005). Chemistry: A General Chemistry Project of the American Chemical Society. (American Chemical Society, Ed.) (1st ed.). Freeman.
  7. Bendick, J., Berquist, L. M., & Bradshaw, G. (2010). The Works of Archimedes.
  8. Benz, S. P., & Hamilton, C. A. (2004). Application of the Josephson effect to voltage metrology. Proceedings of the IEEE, 92(10), 1617–1629.
  9. BIPM. (2006). The International System of Units (SI) (8th ed.). Sevres: IBPM.
  10. BIPM. (2016a). The Metre Convention. Retrieved December 24, 2016, from http://www.bipm.org/en/worldwide-metrology/metre-convention/
  11. BIPM. (2016b). The name “kilogram”: a historical quirk. Retrieved December 24, 2016, from http://www.bipm.org/en/measurement-units/history-si/name-kg.html
  12. BIPM, I. E. C., IFCC, I., & IUPAC, I. (2008). Evaluation of Measurement Data—Guide to the Expression of Uncertainty in Measurement GUM 1995 with minor corrections. Joint Committee for Guides in Metrology, JCGM, 100.
  13. Brown, L., & Holme, T. (2013). Introduction to Chemistry.
  14. Burnett, C. (2006). The semantics of Indian numerals in Arabic, Greek and Latin. Journal of Indian Philosophy, 34(1), 15–30.
  15. Cañón, G. P., Sánchez, M. M. M., & Sánchez, M. T. M. (2012). Sistema Internacional de Unidades: resumen histórico y últimas propuestas. In Anales de la Real Sociedad Española de Química (pp. 236–240). Real Sociedad Española de Química.
  16. Carnegie, A. (2005). James Watt. Cosimo, Inc.
  17. Carrigan, R. A. (1978). Decimal Time: Unlike the metric system of measurements, decimal time did not survive the French Revolution. But is dividing the day by tens a possibility for the future? American Scientist, 66(3), 305–313.
  18. Chang, R. (2006). Chang’s “General Chemistry - Essential Concepts” (4th ed.). McGraw-Hill New York.
  19. Chang, R., & Overby, J. (2011). General Chemistry,Th e Essential Concepts (11th ed.). McGraw-Hill New York.
  20. Cheng, T. (n.d.). Deblackboxing the Ruler.
  21. Clements, M. A. K., & Ellerton, N. F. (2015). Weights and Measures in Teacher-Implemented Arithmetic Curricula in Eighteenth-Century North American Schools. In Thomas Jefferson and his Decimals 1775–1810: Neglected Years in the History of US School Mathematics (pp. 81–102). Springer.
  22. Connor, R. D., Simpson, A. D. C., & Morrison-Low, A. D. (2004). Weights and measures in Scotland: a European perspective. National Museums of Scotland.
  23. Davidson, S. (2012). Characterization of the long-term stability of mass standards stored in vacuum by weighing and surface analysis. Metrologia, 49(3), 200.
  24. Davis, R. S. (2011). The role of the international prototype of the kilogram after redefinition of the International System of Units. Philosophical Transactions of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 369(1953), 3975–3992.
  25. de Lavoisier, A. L. (n.d.). Antoine Laurent de Lavoisier.
  26. De Simone, D. V. (1971). A metric America: a decision whose time has come (Vol. 8). National Bureau of Standards; for sale by the Supt. of Docs., US Govt. Print. Off.
  27. Dear, P. (1995). Discipline and experience: The mathematical way in the scientific revolution. University of Chicago Press.
  28. Diamond, J. (1987). Soft sciences are often harder than hard sciences. Discover, 8(8), 34–39.
  29. Dohrn-van Rossum, G. (1996). History of the hour: Clocks and modern temporal orders. University of Chicago Press.
  30. Donovan, A. (1996). Antoine Lavoisier: Science, administration and revolution (Vol. 5). Cambridge University Press.
  31. Ebbing, D. D., & Gammon, S. D. (2008). General chemistry. (Houghton Mifflin Company, Ed.) (9th ed.). Bonston.
  32. Elliott, M. (2004). United Kingdom: Parliamentary sovereignty under pressure. Int’l J. Const. L., 2, 545.
  33. Fatoohi, L. J., & Stephenson, F. R. (1997). Angular measurements in Babylonian astronomy. Archiv Für Orientforschung, 210–214.
  34. Fisher Jr, W. P. (2005). Daredevil barnstorming to the tipping point: New aspirations for the human sciences. Journal of Applied Measurement, 6(3), 173–179.
  35. Francis, R. T. (1958). Units of measurement. Australian Surveyor, 17(3), 171–173.
  36. Galilei, G., & Drake, S. (1953). Dialogue concerning the two chief world systems, Ptolemaic and Copernican. Random House Digital, Inc.
  37. Geisler, E. (2000). The metrics of science and technology. Greenwood Publishing Group.
  38. Geus, K. (2014). „A Day’s Journey in Herodotus’ Histories “. Features of Common Sense Geography. Implicit Knowledge Structures in Ancient Geographical Texts, 110–118.
  39. Gläser, M., Borys, M., Ratschko, D., & Schwartz, R. (2010). Redefinition of the kilogram and the impact on its future dissemination. Metrologia, 47(4), 419.
  40. Gobato, R., Gobato, A., & Fedrigo, D. F. G. (2015). Energy and matter. arXiv Preprint arXiv:1509.02892.
  41. Gruber, T. R., & Olsen, G. R. (1994). An Ontology for Engineering Mathematics. KR, 94, 258–269.
  42. Hallerberg, A. E. (1973). The metric system: past, present—future? The Arithmetic Teacher, 247–255.
  43. Hargrove, J. L. (2006). History of the calorie in nutrition. The Journal of Nutrition, 136(12), 2957–2961.
  44. Hebra, A. (2003). Measure for measure: The story of imperial, metric, and other units. JHU Press.
  45. Hedges, L. V. (1987). How hard is hard science, how soft is soft science? The empirical cumulativeness of research. American Psychologist, 42(5), 443.
  46. Hellman, C. D. (1931). Jefferson’s efforts towards the decimalization of United States weights and measures. Isis, 16(2), 266–314.
  47. Hénin, S. (2012). Early Italian Computing Machines and Their Inventors. In Reflections on the History of Computing (pp. 204–230). Springer.
  48. Hocking, R. R. (1983). Developments in Linear Regression Methodology: 1959–l982. Technometrics, 25(3), 219–230.
  49. a Hundred, L. O. (1988). The failure in marketing the metric system.
  50. Jackson, L. D. (1882). Modern metrology; a manual of the metrical units and systems of the present century. (L. and Co., Ed.). London.
  51. Janowski, A., & Balewski, B. (2014). Talent Management in Life Insurance Industry, Rediscovering L. von Mises Theory. Journal of US-China Public Administration, 11(5), 440–453.
  52. Julien, F. (2015). Charles Maurice de Talleyrand Perigord. Publications Docs-En-Stock. Com.
  53. Kindleberger, C. P. (1983). Standards as public, collective and private goods. Kyklos, 36(3), 377–396.
  54. Klein, H. A. (2012). The science of measurement: A historical survey. Courier Corporation.
  55. Klioner, S. A., Capitaine, N., Folkner, W. M., Guinot, B., Huang, T.-Y., Kopeikin, S. M., … Soffel, M. H. (2009). Units of relativistic time scales and associated quantities. Proceedings of the International Astronomical Union, 5(S261), 79–84.
  56. Kose, V., Siebert, B. R. L., & Wöger, W. (2003). General principles for the definition of the base units in the SI. Metrologia, 40(4), 146.
  57. Kuhn, T. (2010). The Scientific Revolution. Philosophy of Science for Nursing Practice: Concepts and Application, 87.
  58. Kuhn, T. S. (1970). The structure of scientific revolutions, 2nd. Chicago: Univ. of Chicago Pr.
  59. Lee, J. A. (1995). The International System of Units and Its Use in Geography and Related Disciplines. Journal of Geography, 94(6), 592–598.
  60. Levy, S. M. (2011). Construction calculations manual. Butterworth-Heinemann.
  61. Linton, M. (2016). the French revolution.
  62. Loidi J N, & Saenz P M. (2006). The units of length in the Spanish treatises of military engineering. In The Global and the Local: The History of Science and the Cultural Integration of Europe. (Vol. Proceeding). Cracow, Poland: The Press of the Polish Academy of Arts and Sciences.
  63. Maestro, M. (1980). Going metric: How it all started. Journal of the History of Ideas, 41(3), 479–486.
  64. Mari, L. (2003). Epistemology of measurement. Measurement, 34(1), 17–30.
  65. Markowitz, W. (1973). SI, the international system of units. Geophysical Surveys, 1(2), 217–241.
  66. Measures, I. B. of W. and, Taylor, B. N., & Thompson, A. (2001). The international system of units (SI).
  67. Merritt, T. (2012). Chronology of Tech History. Lulu. com.
  68. Microsoft. (2016). Display numbers in scientific (exponential) notation. Retrieved February 24, 2016, from https://support.office.com/en-us/article/Display-numbers-in-scientific-exponential-notation-f85a96c0-18a1-4249-81c3-e934cd2aae25
  69. Mihas, P. (2008). The problem of focusing and real images. European Journal of Physics, 29(3), 539.
  70. Mills, I. M., Mohr, P. J., Quinn, T. J., Taylor, B. N., & Williams, E. R. (2006). Redefinition of the kilogram, ampere, kelvin and mole: a proposed approach to implementing CIPM recommendation 1 (CI-2005). Metrologia, 43(3), 227.
  71. Moreau, H. (1953). The genesis of the metric system and the work of the International Bureau of Weights and Measures. J. Chem. Educ, 30(1), 3.
  72. Mundell, R. A. (2002). The birth of coinage. Colombia University, Department of Economics.
  73. Murphy, N., & Jones, T. (2005). The Story of 1. UK: BBC.
  74. Myller, R. (2009). How big is a foot? Yearling.
  75. Nawrocki, W. (2015). Measures, Standards and Systems of Units. In Introduction to Quantum Metrology (pp. 11–39). Springer.
  76. Newton, I. (2013). Philosophie naturalis principia Mathematica.
  77. O’Connor, J. J., & Robertson, E. F. (1997). Christiaan Huygens.
  78. Olson, M., Zenigami, F., & Okazaki, C. (2008). Students’ geometric thinking about rotations and benchmark angles. MatheMatics Teaching in the Middle School, 14, 24–26.
  79. Outram, D., & Schiebinger, L. (1991). The body and the French Revolution: sex, class, and political culture.
  80. Palmer, J. M., & Carroll, L. (1999). Radiometry and photometry FAQ. URL: Http://www. Optics. Arizona. edu/Palmer/rpfag/rpfag. Htm# Motivation.
  81. Pennycuick, C. J. (1988). Conversion factors: SI units and many others. University of Chicago Press.
  82. Pickover, C. (2008). Archimedes to Hawking: laws of science and the great minds behind them. Oxford University Press.
  83. Prior, W. H. (1924). Notes on the weights and measures of medieval England (2).
  84. Qing, X. (2013). Investigación aviación civil de China.
  85. Quinn, T. J. (1995). Base units of the Système International d’Unités, their accuracy, dissemination and international traceability. Metrologia, 31(6), 515.
  86. Rao, S. R. (1997). From the Indus Civilization to the Golden Age. Ananya: A Portrait of India, Edited by SN Sridhar and Nirmal K. Mattoo, 35–62.
  87. Robinson, I. A. (2009). Toward the redefinition of the kilogram: measurements of Planck’s constant using watt balances. IEEE Transactions on Instrumentation and Measurement, 58(4), 942–948.
  88. Romer, R. H. (1982). Temperature Scales: Celsius, Fahrenheit, Kelvin, Reamur, and Romer. Physics Teacher, 20(7), 450–454.
  89. Roth, E. (2011). With a Bended Bow: Archery in Medieval and Renaissance Europe. The History Press.
  90. Rudé, G. (1959). The crowd in the French Revolution (Vol. 129). Clarendon Press Oxford.
  91. Russell, J. L. (1964). Kepler’s laws of planetary motion: 1609–1666. The British Journal for the History of Science, 2(01), 1–24.
  92. Sanford, V. (1921). La disme of Simon Stevin—The first book on decimals. The Mathematics Teacher, 14(6), 321–333.
  93. Serway, R. A., & Jewett, J. W. J. (2010). Physics for Scientists and Engineers with Modern Physics, Ninth Edition (8th ed.). Boston: Brooks/Cole.
  94. Serway, R. A., & Jewett, J. W. J. (2014). Physics for Scientists and Engineers with Modern Physics, Ninth Edition (9th ed.). Boston: Brooks/Cole.
  95. Shapin, S. (1996). The scientific revolution. University of Chicago Press.
  96. Shapiro, B. J. (1969). John Wilkins, 1614-1672: an intellectual biography. Univ of California Press.
  97. Silverberg, P. (1997). US Metrication: The Time Is Now! Chemical Engineering, 104(3), 5.
  98. Smith, D. E., & Karpinski, L. C. (2013). The Hindu-Arabic Numerals. Courier Corporation.
  99. Smith, G. T. (2016). Measurement and Machine Tools—An Introduction. In Machine Tool Metrology (pp. 1–200). Springer.
  100. Smith, J. A. (2008). Arithmetic in Islamic mathematics. In Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures (pp. 240–242). Springer.
  101. Smith, J. C. (1998). TAKE ME TO YOUR LITER:: A History of Metrication in the United States. Journal of Government Information, 25(5), 419–438.
  102. Smith, J. R. (2013). The Ancient Egyptian Cubit and its Subdivision. Survey Review.
  103. Speiring, M. (2001). The imperial system of weights and measures: Traditional, superior and banned by Europe? Contemporary British History, 15(4), 111–128.
  104. Stephenson, A. G., Mulville, D. R., Bauer, F. H., Dukeman, G. A., Norvig, P., LaPiana, L. S., … Sackheim, R. (1999). Mars climate orbiter mishap investigation board phase i report, 44 pp. NASA, Washington, DC.
  105. Stephenson, F. R., & Fatoohi, L. J. (1994). The Babylonian unit of time. Journal for the History of Astronomy, 25, 99.
  106. Stock, M., Barat, P., Davis, R. S., Picard, A., & Milton, M. J. T. (2015). Calibration campaign against the international prototype of the kilogram in anticipation of the redefinition of the kilogram part I: comparison of the international prototype with its official copies. Metrologia, 52(2), 310.
  107. Stone, M. H. (2014). The Cubit: A History and Measurement Commentary. Journal of Anthropology, 2014.
  108. Struik, D. J. (1959). Simon Stevin and the decimal fractions. The Mathematics Teacher, 52(6), 474–478.
  109. Swindells, B. (1975). Centenary of the Convention of the Metre. Platinum Metals Review, 19(3), 110–113.
  110. Szymaniec, K., Chalupczak, W., Whibberley, P. B., Lea, S. N., & Henderson, D. (2005). Evaluation of the primary frequency standard NPL-CsF1. Metrologia, 42(1), 49.
  111. Tavernor, R. (2007). Smoot’s ear: the measure of humanity. Yale University Press.
  112. Taylor, B. (1995). Guide for the Use of the International System of Units (SI): The Metric System. DIANE Publishing.
  113. Taylor, J. (1997). Introduction to error analysis, the study of uncertainties in physical measurements (Vol. 1).
  114. Ten, A. E. (1989). El sistema métrico decimal y España. Arbor, 134(527), 101.
  115. Timberlake, K. C. (2015). Chemistry An Introduction to General, Organic, and Biological Chemistry (15th ed.). USA: Pearson.
  116. Tipler, P. A., & Llewellyn, R. A. (2012). Modern Physics (6th ed.). New York: Freeman.
  117. Tsipenyuk, Y. M. (2009). Physical Methods, Instruments and Measurements. Eolss Publishers Company Limited.
  118. Vawter, S. M., & Ralph, E. (1971). The international metric system and medicine. JAMA, 218(5), 723–726.
  119. Velkar, A. (2012). Markets and Measurements in Nineteenth-Century Britain. Cambridge University Press.
  120. Vera, H. (2015). The social construction of units of measurement: Institutionalization, legitimation, and maintenance in metrology. Standardization in Measurement: Philosophical, Historical, and Sociological Issues. London: Pickering and Chatto, 173–187.
  121. Vernick, A. S. (1987). Metrication overview: a report from the chairman of the metrication committee. Journal (Water Pollution Control Federation), 59(9), 810–812.
  122. Vervoort, G. (1973). Inching our way toward the metric system. The Mathematics Teacher, 66(4), 297–302.
  123. Vodolazhskaya, L. N., Usachuk, A. N., & Nevsky, M. Y. (2015). Marks of heliacal rising of Sirius on the sundial of the Bronze Age. arXiv Preprint arXiv:1509.00134.
  124. Watson, C. M. (1906). 3rd Meeting:-“ Some objections to the compulsory introduction of the metric system.” RSA Journal, 55, 47.
  125. West, L. C. (1941). The Roman Gold Standard and the Ancient Sources. The American Journal of Philology, 62(3), 289–301.
  126. Wilkins, J. (1974). An essay towards a real character, and a philosophical language. Gellibrand.
  127. Williams, E. (1973). Metrication in Britain. The Arithmetic Teacher, 261–264.
  128. Williams, F. (2003). Units of Measurement. In Topics in Quantum Mechanics (pp. 3–6). Springer.
  129. Williams, J. H. (2014). Measurement in the Modern World. In Defining and Measuring Nature. Morgan & Claypool Publishers.
  130. Witkin, R. (1983). Jet’s fuel ran out after metric conversion errors—NYTimes. com. New York Times.
  131. Zghal, M., Bouali, H.-E., Lakhdar, Z. Ben, & Hamam, H. (2015). The first steps for learning optics: Ibn Sahl’s, Al-Haytham's and Young's works on refraction as typical examples. In Tenth International Topical Meeting on Education and Training in Optics and Photonics (p. 966509). International Society for Optics and Photonics.
  132. Zhengzhang, T. (1991). On the origin of the carat as the unit of weight for gemstones. Chinese Journal of Geochemistry, 10(3), 288–293.
  133. Zombeck, M. V. (2006). Handbook of space astronomy and astrophysics. Cambridge University Press.
  134. Zupko, R. E. (1978). French weights and measures before the Revolution: a dictionary of provincial and local units. Indiana University Press.

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