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  1. 8 de sept. de 2010 · Premios Nobel - Física 1906 (J. J. Thomson) 2010/09/08. Continuamos hoy nuestro camino, largo pero espero que interesante, a través de los Premios Nobel de Química y de Física desde su primera entrega en 1901. En la entrada anterior hablamos sobre el galardón de Química de 1905, otorgado a Adolf von Baeyer por su síntesis del índigo ...

  2. the rst text to explore J. J. Thomson s early and later work, as well as the role he played in G. P. Thomson s education as a physicist, and how he reacted to his son s discovery of electron diffraction. This fresh perspective will interest academic and graduate students working in the history of early twentieth-century physics. JAUME NAVARRO

  3. Sin embargo, J.J. Thomson demostró de manera concluyente lo contrario a través de sus experimentos con tubos de rayos catódicos que demostraron que todos los átomos contienen diminutas partículas subatómicas cargadas negativamente. Thomson descubrió así partículas que eran 1.800 veces más ligeras que el átomo más ligero (hidrógeno).

  4. J.J. Thomson. Joseph John Thomson, född 18 december 1856 i Cheetham Hill nära Manchester, död 30 augusti 1940 i Cambridge, var en brittisk fysiker verksam i Cambridge. Han fick Nobelpriset i fysik 1906. Biografi. Thomson visade 1897 att katodstrålar är en ström av fria partiklar, och var därmed den som upptäckte elektronen.

  5. J. J. Thomson. Sir Joseph John Thomson (18 December 1856 – 30 August 1940) was a British physicist and Nobel Laureate in Physics, credited with the discovery of the electron, the first subatomic particle to be found. In 1897, Thomson showed that cathode rays were composed of previously unknown negatively charged particles (now called ...

  6. From these equations we get. (1/2) ( m/e) v2 = W/Q . v = 2W/QI , m/e = I 2 Q/2W. Thus, if we know the values of Q, W, and I, we can deduce the values of v and m/e. To measure these quantities, I have used tubes of three different types. The first I tried is like that represented in fig. 2, except that the plates E and D are absent, and two ...

  7. J.J Thomson was always a very smart boy. He involved himself in mathematical equations and eventually went to Cambridge to study math and science. He was interested in finding the mathematical side of science and physics. His parents wanted him to become an engineer, but J.J. didn't want to. His dad passed away when he was 16 years old. Later ...