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Lambert Adolphe Jacques Quetelet  
  
246   01:45 مساءاً   date: 21-7-2016
Author : Adolphe Quetelet
Book or Source : 1796-1874 : contributions en hommage a son role de sociologue
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Date: 14-7-2016 169
Date: 21-7-2016 199
Date: 17-7-2016 110

Born: 22 February 1796 in Ghent, French Empire, (now Belgium)

Died: 17 February 1874 in Brussels, Belgium


Adolphe Quetelet's mother was Anne-Françoise Vandervelde and his father was François-Augustin-Jacques-Henri Quetelet. Adolphe's father had been born in Ham in Picardy but lived for a time in Britain, becoming a British citizen, where he became the secretary of a Scottish nobleman. In this capacity he travelled with his employer on the Continent, particularly spending time in Italy. In 1787, at age about 31, he settled in Ghent and he was employed by the city. He died in 1803 when Adolphe was only seven years old so after attending the Lyceum in Ghent, he felt he had to take a job to support his family. He had shown himself to be a very talented mathematician at the Lyceum, so despite being attracted by literature, he became a mathematics teacher at a school in Audenaerde in 1813. He taught there until he was appointed as an instructor in mathematics at the College of Ghent in February 1815.

Germinal Dandelin was two years older than Quetelet but the two became friends while they studied at the Lyceum. Both were interested in mathematics, literature and music. Dandelin had then gone to Paris to study, had fought for Napoleon but returned to Belgium after Napoleon's defeat at Waterloo. He then renewed his friendship with Quetelet who was teaching at the College of Ghent. The two friends composed a libretto for an opera and after it was successfully performed, wrote to further dramas. Quetelet's time at the College of Ghent was not all spent on literary pursuits, however, for he came under the influenceof Garnier, the professor of astronomy and higher mathematics. It was Garnier who halted Quetelet's growing involvement in the arts, and made him become enthusiastic to undertake deeper studies in mathematics.

William I, king of The Netherlands and grand duke of Luxembourg (which included Belgium at that time), founded a state university in Ghent in 1817; the university opened in October of that year. Quetelet received his first doctorate in 1819 from Ghent for a dissertation on the theory of conic sections. After receiving this doctorate he was appointed to the chair of elementary mathematics at the Athenaeum in Brussels. In February 1820 he was elected to the Royal Belgium Academy of Science and greatly invigorated the Academy over the following years. In December 1823, he went to Paris to study astronomy at the Observatory there. He learnt astronomy from Arago and Bouvard and the theory of probability under Joseph Fourier and Pierre Laplace. He also met Poisson, von Humboldt and Fresnel. Returning to Brussels, he became professor of higher mathematics at the Athenaeum. He gave his first course on probability in the academic year 1824-25. He also began to give public lectures at the Museum in Brussels on topics such as geometry, probability, physics, and astronomy. He also began to give courses on the history of science. These lectures were published in 1828 under the title Instructions populaires sur le calcul des probabilités. We now give four quotes from these lectures:-

  1. The more advanced the sciences have become, the more they have tended to enter the domain of mathematics, which is a sort of centre towards which they converge. We can judge of the perfection to which a science has come by the facility, more or less great, with which it may be approached by calculation.
  2. It seems to me that the theory of probabilities ought to serve as the basis for the study of all the sciences, and particularly of the sciences of observation.
  3. Since absolute certainty is impossible, and we can speak only of the probability of the fulfilment of a scientific expectation, a study of this theory should be a part of very man's education.
  4. Chance, that mysterious, much abused word, should be considered only a veil for our ignorance; it is a phantom which exercises the most absolute empire over the common mind, accustomed to consider events only as isolated, but which is reduced to naught before the philosopher, whose eye embraces a long series of events and whose penetration is not led astray by variations, which disappear when he gives himself sufficient perspective to seize the laws of nature.

In 1825 Quetelet married the daughter of the French physician M Curtet; they had one son, Ernest, and one daughter. Ernest became an accomplished astronomer, and eventually took over his father's role as Director of the Brussels Observatory. Quetelet loved music and was a reasonable musician; his wife however was an excellent musician. They would entertain guests at their home with music after their regular Saturday and Sunday dinner parties.

Quetelet had been sent to Paris at the expense of the state in order that he could gain experience in practical astronomy. For a long time he had been pressing for a Belgium observatory to be set up, but the project progressed rather slowly. In 1827, on the direction of the King, Quetelet was given the task of choosing instruments for the observatory. Together with Dandelin, he went to London and from there visited universities, observatories and learned societies in England, Scotland, and Ireland seeking advice. Again in 1829, this time accompanied by his wife, he visited astronomers in Holland and Germany, and became familiar with all German observatories. Next he visited Italy and Sicily in 1830 to learn more of the workings of observatories and societies. In 1832 he became director of the newly opened Observatory.

From this time on, Quetelet lived at the Observatory where he worked on statistical, geophysical, and meteorological data, studied meteor showers and established methods for the comparison and evaluation of the data. Between 1825 and 1835 he wrote papers on social statistics. In Recherches sur le Penchant au Crime aux Différens هges written during this period, he wrote:-

It seems to me that that which relates to the human species, considered en masse, is of the order of physical facts: the greater the number of individuals, the more the influence of the individual will is effaced, being replaced by the series of general facts that depend on the general causes according to which society exists and maintains itself. These are the causes we seek to grasp, and when we do know them, we shall be able to ascertain their effects in social matters, just as we ascertain effects from causes in the physical sciences.

He gained world-wide fame in 1835 when he published Sur l'homme et le developpement de ses facultés, essai d'une physique sociale. The significance of this work is discussed in [1]:-

With Quetelet's work of 1835 a new era in statistics began. It presented a new technique of statistics, or, rather, the first technique at all. The material was thoughtfully elaborated, arranged according to certain pre-established principles, and made comparable. There were not very many statistical figures in the book, but each figure reported made sense. For every number, Quetelet tried to find the determining influences, its natural causes, and the perturbations caused by man. The work gave a description of the average man as both a static and dynamic phenomenon.

Influenced by Laplace and Fourier, Quetelet was the first to use the normal curve other than as an error law. In Sur l'homme et le developpement de ses facultés, essai d'une physique sociale he presented his conception of the average man as the central value about which measurements of a human trait are grouped according to the normal curve. His studies of the numerical consistency of crimes stimulated wide discussion of free will versus social determinism. You can read an extract from Sur l'homme on the conclusions he drew from statistics gathered from the French criminal courts between 1826 and 1831.

For his government he collected and analysed statistics on crime, mortality etc. and devised improvements in census taking. His work produced great controversy among social scientists of the 19th century. The following quotation from a 1848 publication shows that Quetelet understood quite well what he was measuring:-

This probability may be considered as giving, in cities, the measure of the apparent tendency to marriage of a Belgian aged 25 to 30. I say apparent tendency intentionally, to avoid confusion with the real tendency, which may be quite different. One man may have, throughout his life, a real tendency to marry without ever marrying; another, on the contrary, carried along by fortuitous circumstances, may marry without having the least propensity to marriage. The distinction is essential.

The Royal Belgium Academy was founded in Brussels in 1769 as a purely literary academy but in 1816 it was reorganised into the Académie royale des sciences et belles-lettres under the patronage of William I of The Netherlands. Quetelet was elected to the Belgium Academy in 1820 and played a large role in making it an active vigorous organisation. He was director from 1832 to 1833, then became secretary of the Academy, a role he continued to hold until his death forty years later. Not only was he interested in the scientific side of the society, but he also played a large role in the arts side. While president, he tried to introduce a new class of Beaux-Arts but failed. He eventually succeeded in 1832. Hankins writes in [4]:-

Having failed he contented himself with assisting in the organisation of the Cercle artistique et littéraire, of which he was for some time the president. As secretary of the Academy he was always prompt and painstaking in fulfilling his duties.

Quetelet organised the first international statistics conference in 1853 [4]:-

... Quetelet was chosen president, and in his opening address he dwelt upon the advantages of international uniformity in plans, purposes and terminology of the official statistical publications. The Congress was a decided success and other sessions followed. The influence of the Congress on both the theory and practice of statistics was immense.

In the summer of 1855 Quetelet was struck by an illness, a stroke of moderate severity. He made a good physical recovery but mentally he was never as sharp again and his memory became poor. Although he wrote articles after this his writing was poor and had to be corrected very substantially before it was understandable.

As to his character, the description given in [4] relates, of course, to the time before his illness of 1855:-

Modest and generous, convinced but respectful of other' opinions, always calm and considerate, a man of broad learning and an attractive conversationalist, he won and kept friends wherever he went. A man of excellent tact, as well as tremendous enthusiasm ... A man of wide intellectual interests, and at the same time endowed with a prodigious capacity for labour ... always animated and genial, found of wit and laughter.

To finish this sketch of Quetelet let us quote from a speech given at his funeral;-

As a man of science he was admired; in political affairs he was respected; in private life he was beloved.

As a footnote let us mention that the internationally used measure of obesity is the Body Mass Index or Quetelet Index. This is

QI = (weight in kilograms)/(height in metres)2.


 

  1. H Freudenthal, Biography in Dictionary of Scientific Biography (New York 1970-1990). 
    http://www.encyclopedia.com/doc/1G2-2830903552.html
  2. Biography in Encyclopaedia Britannica. 
    http://www.britannica.com/eb/article-9062246/Adolphe-Quetelet

Books:

  1. Adolphe Quetelet, 1796-1874 : contributions en hommage a son role de sociologue (Brussels, 1977).
  2. F H Hankins, Quetelet as a Statistician (Columbia University, Longmans, Green & Co., New York, 1908).

Articles:

  1. R André, Adolphe Quetelet, académicien, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 23-45.
  2. M Armatte and J-J Droesbeke, Quetelet et les probabilités: le sens de la formule, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 107-135.
  3. J H Cassedy, The Bertillon family and Quetelet's hat. Scientific specialization in mid-19th century, Actes du XIIe Congrès International d'Histoire des Sciences (Paris, 1968), Tome XI: Sciences et sociétés: relations-influences-écoles (Librairie Sci. Tech. Blanchard, Paris, 1971), 39-43.
  4. C Cheruy, Parmi les recensements en Belgique indépendante: Bruxelles en 1842 et le Royaume en 1846. Une première activité de Quetelet, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 161-177.
  5. L J Daston, Rational individuals versus laws of society : from probability to statistics, in The probabilistic revolution 1 (MIT Press, Cambridge, MA-London, 1987), 295-304.
  6. A Desrosières, Quetelet et la sociologie quantitative: du piédestal à l'oubli, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 197-198.
  7. M Diamond and M Stone, Nightingale on Quetelet, J. Roy. Statist. Soc. Ser. A 144 (1) (1981), 66--79.
  8. M Diamond and M Stone, Nightingale on Quetelet. II. The marginalia, J. Roy. Statist. Soc. Ser. A 144 (2) (1981), 176-213.
  9. M Diamond and M Stone, Nightingale on Quetelet. III. Essay in memoriam, J. Roy. Statist. Soc. Ser. A 144 (3) (1981), 332-351.
  10. J-J Droesbeke, Lambert Adolphe Jacques Quetelet, a man of many ideas, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 13-21.
  11. L Godeaux, L'oeuvre mathématique de Adolphe Quetelet (1796-1874), Janus 60 (1973), 97-99.
  12. R A Horvath, The centenary of Quetelet's death and the development of statistical discipline, Bull. Inst. Internat. Statist. 45 (1) (1973), 548-554.
  13. Z Kenessey, Quetelet and the beginnings of international statistics, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 137-159.
  14. P F Lazarsfeld, Notes on the history of quantification in sociology - trends, sources and problems, Isis 52 (1961), 277-333.
  15. P F Lazarsfeld, Notes on the history of quantification in sociology - trends, sources and problems, in M G Kendall and R L Plackett (eds.), Studies in the History of Statistics and Probability II (London, 1977), 213-270.
  16. B-P Lécuyer, Probability in vital and social statistics : Quetelet, Farr, and the Bertillons, in The probabilistic revolution 1 (MIT Press, Cambridge, MA-London, 1987), 317-335.
  17. J A Michon, The life and opinions of Mr and Ms Average, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 211-224.
  18. A Oberschall, The two empirical roots of social theory and the probability revolution, The probabilistic revolution 2 (MIT Press, Cambridge, MA, 1987), 103-131.
  19. P Pâquet, Les initiatives de Adolphe Quetelet en astronomie, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 63-72.
  20. T M Porter, The mathematics of society : variation and error in Quetelet's statistics, British J. Hist. Sci. 18 (58)(1) (1985), 51-69.
  21. T M Porter, Was Quetelet a positivist?, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 199-209.
  22. T M Porter, The quantification of uncertainty after 1700 : statistics socially constructed?, in Acting under uncertainty: multidisciplinary conceptions (Kluwer Acad. Publ., Boston, MA, 1990), 45-75.
  23. T M Porter, Lawless society: social science and the reinterpretation of statistics in Germany, 1850-1880, in The probabilistic revolution 1 (MIT Press, Cambridge, MA-London, 1987), 351-375.
  24. A Quinet, La météorologie, de Quetelet à nos jours, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 73-92.
  25. O B Sheynin, A Quetelet as a statistician, Arch. Hist. Exact Sci. 36 (4) (1986), 281-325.
  26. P C Simon, L'aéronomie spatiale de Quetelet à nos jours, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 93-106.
  27. S M Stigler, The History of Statistics. The Measurement of Uncertainty before 1900 (Cambridge, Mass.-London, 1986), 161-.
  28. S M Stigler, Adolphe Quetelet: statistician, scientist, builder of intellectual institutions, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 47-61.
  29. T Toyoda, Essay on Quételet and Maxwell: from la physique sociale to statistical physics, Rev. Questions Sci. 168 (3) (1997), 279-302.
  30. E Vilquin, Comment travaille un grand esprit? Notes sur l'écriture de la Physique sociale, in Actualité et universalité de la pensée scientifique d'Adolphe Quetelet, Brussels, 1996, Acad. Roy. Belg. Cl. Sci. Mém. Collect. 8(3) 13 (1997), 225-233.

 




الجبر أحد الفروع الرئيسية في الرياضيات، حيث إن التمكن من الرياضيات يعتمد على الفهم السليم للجبر. ويستخدم المهندسون والعلماء الجبر يومياً، وتعول المشاريع التجارية والصناعية على الجبر لحل الكثير من المعضلات التي تتعرض لها. ونظراً لأهمية الجبر في الحياة العصرية فإنه يدرّس في المدارس والجامعات في جميع أنحاء العالم. ويُعجب الكثير من الدارسين للجبر بقدرته وفائدته الكبيرتين، إذ باستخدام الجبر يمكن للمرء أن يحل كثيرًا من المسائل التي يتعذر حلها باستخدام الحساب فقط.وجاء اسمه من كتاب عالم الرياضيات والفلك والرحالة محمد بن موسى الخورازمي.


يعتبر علم المثلثات Trigonometry علماً عربياً ، فرياضيو العرب فضلوا علم المثلثات عن علم الفلك كأنهما علمين متداخلين ، ونظموه تنظيماً فيه لكثير من الدقة ، وقد كان اليونان يستعملون وتر CORDE ضعف القوسي قياس الزوايا ، فاستعاض رياضيو العرب عن الوتر بالجيب SINUS فأنت هذه الاستعاضة إلى تسهيل كثير من الاعمال الرياضية.

تعتبر المعادلات التفاضلية خير وسيلة لوصف معظم المـسائل الهندسـية والرياضـية والعلمية على حد سواء، إذ يتضح ذلك جليا في وصف عمليات انتقال الحرارة، جريان الموائـع، الحركة الموجية، الدوائر الإلكترونية فضلاً عن استخدامها في مسائل الهياكل الإنشائية والوصف الرياضي للتفاعلات الكيميائية.
ففي في الرياضيات, يطلق اسم المعادلات التفاضلية على المعادلات التي تحوي مشتقات و تفاضلات لبعض الدوال الرياضية و تظهر فيها بشكل متغيرات المعادلة . و يكون الهدف من حل هذه المعادلات هو إيجاد هذه الدوال الرياضية التي تحقق مشتقات هذه المعادلات.