Q1: A fission reaction is shown in figure, A uranium nucleus is excited by the neutron, and it split into two nuclei (krypton and barium) and emit three neutrons. barium 3 neutrons uranium neutron anergy krypton before and after the reaction the difference in mass of particles is: 235.0439231 - 91.9261528 - 140.9144064 – (2*1.0086649) = 0.186034 amu How much energy (in KWh) is released per nuclear fission reaction?
Q1: A fission reaction is shown in figure, A uranium nucleus is excited by the neutron, and it split into two nuclei (krypton and barium) and emit three neutrons. barium 3 neutrons uranium neutron anergy krypton before and after the reaction the difference in mass of particles is: 235.0439231 - 91.9261528 - 140.9144064 – (2*1.0086649) = 0.186034 amu How much energy (in KWh) is released per nuclear fission reaction?
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Transcribed Image Text:Q1: A fission reaction is shown in figure, A uranium nucleus is excited by the neutron,
and it split into two nuclei (krypton and barium) and emit three neutrons.
barium
3 neutrons
uranium
neutron
energy
krypton
before and after the reaction the difference in mass of particles is:
235.0439231 -91.9261528 - 140.9144064 – (2*1.0086649) = 0.186034 amu
How much energy (in KWh) is released per nuclear fission reaction?
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