Born: 20 Feb 1844 in , Died: 5 Oct 1906 in Duino (near ), Austria (now Italy)

Boltzmann was awarded a doctorate from the in 1866 for a thesis on the kinetic of gases supervised by . After obtaining his doctorate, he became an assistant to his teacher Josef Stefan. Boltzmann taught at , moved to Heidelberg and then to Berlin. In these places he studied under Bunsen, Kirchhoff and Helmholtz. In 1869 Boltzmann was appointed to a chair of theoretical at Graz. In 1873, he accepted the chair of at Vienna, but after three years he was back in Graz, this in the chair of . In 1894, Boltzmann moved back to Vienna, this time to the chair of theoretical physics which became vacant on the death of his teacher Josef Stefan. However, the following year was appointed to the chair of history and philosophy of science at Vienna. Boltzmann had many scientific opponents but, to Boltzmann, Mach was more than a scientific opponent as the two were on bad personal terms. In 1900, because of his dislike of working with Mach, Boltzmann moved to Leipzig but here he became a colleague of his strongest scientific opponent . Despite their scientific differences Boltzmann and Ostwald were on good personal terms. Despite this, depressed by scientific arguments with Ostwald which are described below Boltzmann unsuccessfully attempted suicide during his time in Leipzig. In 1901 Mach retired from Vienna due to ill health, and because of this Boltzmann's reason for moving from Vienna had gone. In 1902 he returned to Vienna to his chair of theoretical physics which had not been filled in the intervening period. In addition to his teaching in , Boltzmann was given Mach's philosophy course to teach. His philosophy lectures quickly became famous with the audience soon being too large for the biggest lecture hall available. In fact because of the fame of these lectures Boltzmann was invited to the Palace of Franz Josef.

Boltzmann's fame is based on his invention of . This he did independently of Willard Gibbs. Their connected the properties and behaviour of and with the large scale properties and behaviour of the substances of which they were the building blocks.

Boltzmann obtained the Maxwell- in 1871, namely the average of motion of a is the same for each direction. He was one of the first to recognise the importance of Maxwell's electromagnetic theory.

In 1884 the of Josef Stefan was developed by Boltzmann who showed how Josef Stefan's empirical T4 law for , formulated in 1879, could be derived from the principles of .

Boltzmann worked on statistical mechanics using to describe how the properties of atoms determine the properties of matter. In particular his work relates to the Second Law of Thermodynamics which he derived from the principles of mechanics in the 1890s.

Boltzmann's ideas were not accepted by many scientists. In 1895, at a scientific meeting in Lübeck, Wilhelm Ostwald presented a paper. Sommerfeld, who was at the meeting, described the resulting battle between Ostwald and Boltzmann. Sommerfeld wrote:- ... Boltzmann was seconded by Felix Klein. The arguments of Boltzmann carried the day. We, the young mathematicians of that time, were all on the side of Boltzmann ... .

Attacks on his work continued and he began to feel that his life's work was about to collapse despite his defence of his theories. Depressed and in bad health, Boltzmann committed suicide just before experiment verified his work.

[Edited by PDL from the article by J J O'Connor and E F Robertson (September 1998) at http://www-history.mcs.st-andrews.ac.uk/Mathematicians/Boltzmann.html]

Links to 16.271: QT: 24, 38 (Planck), 48 (Einstein) showing S=k log W

Google: 1,160,000 hits, 33 bookmarked in first 25 pages. A list of 26 selected hits is appended.

Recent Books and papers: 1) Dieter Flamm (grandson) arXiv preprint: Ludwig Boltzmann – A pioneer of Modern Physics http://xxx.lanl.gov/PS_cache/physics/pdf/9710/9710007.pdf

2) Carlo Cercignani: Ludwig Boltzmann: The Man Who Trusted Atoms http://www.us.oup.com/us/catalog/general/subject/?view=usa&sf=toc&ci=0198501544 (reviewed by Flamm!)

3) David Lindley: Boltzmann’s : The Great Debate that Launched a Revolution in Physics http://www.physicstoday.org/pt/vol-54/iss-9/p53a.html

Wider impact: formulated a theory quantifying information. "The Mathematical Theory of Communication" (Bell System Technical Journal, 1948) extended the concept of (a measure of uncertainty) by demonstrating that decreases in uncertainty correspond to the information content in a message. This paper began the field of . In footnotes of the 1949 book reprinting the 1948 paper, Shannon and Warren Weaver acknowledge that their work was based on the treatment of "information" by John von Neumann in 1932, Leo Szilard in 1929, R.V.L. Hartley in 1928, and ultimately to Gibbs' 1902 work in statistical mechanics and Boltzmann's 1894 work in thermodynamics.

Recommended paper: http://www.jce.divched.org/Journal/Issues/2004/Nov/p1595.pdf Introduction of Entropy via the Boltzmann Distribution in Undergraduate Physical : A Molecular Approach Evguenii I. Kozliak, • Journal of Chemical Education, Vol. 81 No. 11 November 2004 1595-8 26 selected hits from Google search: http://www.google.ca/search?hl=en&q=Boltzmann&btnG=Google+Search&meta= 1,160,000 hits, 33 bookmarked in first 25 pages. http://physicalworld.org/restless_universe/html/ru_bolt.html Dieter Flamm’s article: http://xxx.lanl.gov/PS_cache/physics/pdf/9710/9710007.pdf http://vacuumscientists.com/p1.html http://www.aracnet.com/~histgaz/atomi/plumbob.htm 1957 “atomic bomb” test http://www.aip.org/history/esva/catalog/esva/Boltzmann_Edward.html PICTURES OF B http://www.us.oup.com/us/catalog/general/subject/?view=usa&sf=toc&ci=0198501544 [Cercignani] http://www.xs4all.nl/~jcdverha/scijokes/7.html#Boltzmann_1 JOKES http://www.xs4all.nl/~jcdverha/scijokes/10.html#Boltzmann_2 MORE JOKES http://physicsweb.org/articles/review/12/4/1 review of Cercignani by Flamm http://www.corrosion-doctors.org/Biographies/BoltzmannBio.htm http://www.graz.at/grazinfo/personen/da_boltz.htm http://translate.google.com/translate?hl=en&sl=de&u=http://www.graz.at/grazinfo/person en/da_boltz.htm&prev=/search%3Fq%3DBoltzmann%26start%3D70%26hl%3Den%26lr %3D%26sa%3DN http://philsci-archive.pitt.edu/archive/00001719/ http://www.sinica.edu.tw/~statphys/links/IUPAP_C3/Boltz_Award/BA1989.html http://www.genealogy.math.ndsu.nodak.edu/html/id.phtml?id=13105 http://translate.google.com/translate?hl=en&sl=de&u=http://www.ub.uni- heidelberg.de/helios/fachinfo/www/math/zitat/boltzmann- biblio.htm&prev=/search%3Fq%3DBoltzmann%26start%3D90%26hl%3Den%26lr%3D %26sa%3DN http://statisticfunction.net/kinetic/index.html http://statisticfunction.net/boltzmann/index.html http://physics.rug.ac.be/Fysica/Geschiedenis/HistTopics/The_Quantum_age_begins.html #15 see the original and updated source of these “be” pages: http://www-history.mcs.st- andrews.ac.uk/history/HistTopics/The_Quantum_age_begins.html http://www.physicstoday.org/pt/vol-54/iss-9/p53a.html review of Lindley’s book http://www.ias.ac.in/resonance/Sept2001/Sept2001p3-5.html http://plato.stanford.edu/entries/statphys-Boltzmann/ http://plato.stanford.edu/entries/statphys-Boltzmann/notes.html http://www.jce.divched.org/Journal/Issues/2004/Nov/p1595.pdf paper from UNDakota www.findagrave.com http://plato.stanford.edu/entries/statphys-Boltzmann/ Notes http://www.mth.kcl.ac.uk/~streater/boltzmann.html