study of the contribution of nobel prize winners to the development
... does not absorb neutrons (neutrons together with protons form the atomic nucleus), and therefore it is used in nuclear reactors as a coolant. Here are some interesting facts from the life of scientists: during the Second World War, Urey took part in the Manhattan Project (a secret program on the cre ...
... does not absorb neutrons (neutrons together with protons form the atomic nucleus), and therefore it is used in nuclear reactors as a coolant. Here are some interesting facts from the life of scientists: during the Second World War, Urey took part in the Manhattan Project (a secret program on the cre ...
Hpsxray - Nucleonica
... In 1884, at age 28, J.J. Thomson became Director of the Cavendish Laboratory at Cambridge University. No one was more surprised than Thomson who had been decried as a "mere boy." Nevertheless, this mere boy turned what he described as a "string and sealing wax laboratory" into the world's preeminent ...
... In 1884, at age 28, J.J. Thomson became Director of the Cavendish Laboratory at Cambridge University. No one was more surprised than Thomson who had been decried as a "mere boy." Nevertheless, this mere boy turned what he described as a "string and sealing wax laboratory" into the world's preeminent ...
Joseph John Thomson 1856-1940
... In 1884, at age 28, J.J. Thomson became Director of the Cavendish Laboratory at Cambridge University. No one was more surprised than Thomson who had been decried as a "mere boy." Nevertheless, this mere boy turned what he described as a "string and sealing wax laboratory" into the world's preeminent ...
... In 1884, at age 28, J.J. Thomson became Director of the Cavendish Laboratory at Cambridge University. No one was more surprised than Thomson who had been decried as a "mere boy." Nevertheless, this mere boy turned what he described as a "string and sealing wax laboratory" into the world's preeminent ...
Lise Meitner
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Lise Meitner (7 November 1878 – 27 October 1968) was an Austrian physicist who worked on radioactivity and nuclear physics. Meitner was part of the Hahn-Meitner-Strassmann team that worked on ""transuranium-elements"" from 1935 onward, which led to the radiochemical discovery of the nuclear fission of uranium and thorium in December 1938, an achievement for which her colleague Otto Hahn was awarded the Nobel Prize for Chemistry in 1944. Meitner is often mentioned as one of the most glaring examples of women's scientific achievement being overlooked by the Nobel committee.A 1997 Physics Today study concluded that Meitner's omission was ""a rare instance in which personal negative opinions apparently led to the exclusion of a deserving scientist"" from the Nobel. Element 109, meitnerium, is named in her honour.