The equation of a fission process is given in which 235 U is struck by a neutron and undergoes fission to produce 144 Ba, 89 Kr, and three neutrons. The measured masses of these isotopes are 235.043930 u( 235 U), 143.922953 u(144 Ba), 88.917631 u (89 Kr), and 1.0086649 u (neutron). (a) Calculate the energy (in MeV) released by each fission reaction. (b) Calculate the energy released per gram of 235 U, in MeV/g.
The equation of a fission process is given in which 235 U is struck by a neutron and undergoes fission to produce 144 Ba, 89 Kr, and three neutrons. The measured masses of these isotopes are 235.043930 u( 235 U), 143.922953 u(144 Ba), 88.917631 u (89 Kr), and 1.0086649 u (neutron). (a) Calculate the energy (in MeV) released by each fission reaction. (b) Calculate the energy released per gram of 235 U, in MeV/g.
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The equation of a fission process is given in which 235 U is struck by a neutron and undergoes fission to produce 144 Ba, 89 Kr, and three neutrons. The measured masses of these isotopes are 235.043930 u( 235 U), 143.922953 u(144 Ba), 88.917631 u (89 Kr), and 1.0086649 u (neutron).
(a) Calculate the energy (in MeV) released by each fission reaction.
(b) Calculate the energy released per gram of 235 U, in MeV/g.
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