(Frisch suggested the name after speaking with a biologist about cellular division, and Hahn used it in his second paper on the outcomes.) Interestingly, U-235 fission does not always produce the same fragments. The splitting of a nucleus is called fission. This outcome revolutionized physics, and laid the path for entirely new science and applications. They concluded that that the uranium nucleus had split into two smaller nuclei. Hahn and Strassman published their own work showing that the products of the reactions were smaller, nuclei. Meitner and her colleague Otto Frisch created experiments to verify the outcomes and create a theoretical underpinning for the nuclear division, including accounting for the energy that was released in the reaction. Through long-distance correspondence, the groups built on each other's work. Meitner, who was Jewish, was forced to flee her native Austria after Germany annexed it, and could no longer travel to Berlin where the others were working. To put it simply, the researchers expected that the products of their experiments were isotopes of Radium or Uranium instead, the outcomes were completely different elements, such as Barium (atomic number 56). Several scientists, most notably Lise Meitner, Otto Hahn, and Fritz Strassman, began reproducing and expanding on these experiments and working through unclear results. ![]() Unfortunately, Fermi could not determine the products of the reaction. ![]() He assumed that bombarding uranium with neutrons would make it unstable and produce a new element. ![]() In 1934, Enrico Fermi bombarded chemical elements with neutrons in order to create isotopes of other elements.
0 Comments
Leave a Reply. |