19th century in science

Leslie - physicsFrancis Baily - astronomerPlayfair - UniformitarianismRutherford - NitrogenDollond - OpticsYoung - modulus etcBrown - Brownian motionGilbert - Royal Society presidentBanks - BotanistKater - measured gravity??Howard - Chemical EngineerDundonald - propellorsWilliam Allen - PharmacistHenry - Gas lawWollaston - Palladium and RhodiumHatchett - NiobiumDavy - ChemistMaudslay - modern latheBentham - machinery?Rumford - thermodynamicsMurdock - sun and planet gearRennie - Docks, canals & bridgesJessop - CanalsMylne - Blackfriars bridgeCongreve - rocketsDonkin - engineerHenry Fourdrinier - Paper making machineThomson - atomsWilliam Symington - first steam boatMiller - steam boatNasmyth - painter and scientistNasmyth2Bramah - HydraulicsTrevithickHerschel - UranusMaskelyne - Astronomer RoyalJenner - Smallpox vaccineCavendishDalton - atomsBrunel - Civil EngineerBoulton - SteamHuddart - Rope machineWatt - Steam engineTelfordCrompton - spinning machineTennant - Industrial ChemistCartwright - Power loomRonalds - Electric telegraphStanhope - InventorUse your cursor to explore (or Click icon to enlarge)
Distinguished Men of Science.[1] Use the cursor to see who is who.[2]

The 19th century in science saw the birth of science as a profession; the term scientist was coined in 1833 by William Whewell,[3] which soon replaced the older term of (natural) philosopher.

Among the most influential ideas of the 19th century were those of Charles Darwin (alongside the independent research of Alfred Russel Wallace), who in 1859 published the book On the Origin of Species, which introduced the idea of evolution by natural selection. Another important landmark in medicine and biology were the successful efforts to prove the germ theory of disease. Following this, Louis Pasteur made the first vaccine against rabies, and also made many discoveries in the field of chemistry, including the asymmetry of crystals. In chemistry, Dmitri Mendeleev, following the atomic theory of John Dalton, created the first periodic table of elements. In physics, the experiments, theories and discoveries of Michael Faraday, Andre-Marie Ampere, James Clerk Maxwell, and their contemporaries led to the creation of electromagnetism as a new branch of science. Thermodynamics led to an understanding of heat and the notion of energy was defined.

The discovery of new types of radiation and the simultaneous revelation of the nature of atomic structure and matter are two additional highlights. In astronomy, the planet Neptune was discovered. In mathematics, the notion of complex numbers finally matured and led to a subsequent analytical theory; they also began the use of hypercomplex numbers. Karl Weierstrass and others carried out the arithmetization of analysis for functions of real and complex variables. It also saw rise to new progress in geometry beyond those classical theories of Euclid, after a period of nearly two thousand years. The mathematical science of logic likewise had revolutionary breakthroughs after a similarly long period of stagnation. But the most important step in science at this time were the ideas formulated by the creators of electrical science. Their work changed the face of physics and made possible for new technology to come about such as electric power, electrical telegraphy, the telephone, and radio.

  1. ^ Engraving after 'Men of Science Living in 1807-8', John Gilbert engraved by George Zobel and William Walker, ref. NPG 1075a, National Portrait Gallery, London, accessed February 2010
  2. ^ Smith, HM (May 1941). "Eminent men of science living in 1807-8". J. Chem. Educ. 18 (5): 203. doi:10.1021/ed018p203.
  3. ^ Snyder, Laura J. (23 December 2000). "William Whewell". Stanford Encyclopedia of Philosophy. The Metaphysics Research Lab, Stanford University. Retrieved 3 March 2008.

19th century in science

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