In a nuclear reactor
In a nuclear reactor, 235U undergoes fission liberating 200 MeV of energy. The reactor has a 10% efficiency and produces 1000 MW power. If the reactor is to function for 10 years, find the total mass of uranium required.
16
Sep
In a nuclear reactor, 235U undergoes fission liberating 200 MeV of energy. The reactor has a 10% efficiency and produces 1000 MW power. If the reactor is to function for 10 years, find the total mass of uranium required. 235U undergoes fission liberating 200 MeV of energy. The reactor has a 10% efficiency and produces [...]
In a nuclear reactor, fission is produced in 1 g for U235 (235.0439 u) in 24 hours by slow neutrons (1.0087 u). Assume that 35Kr92 (91.8973 u) and 56Ba141 (140.9139 amu) are produced in all reactions and no energy is lost.
17
Oct
In a nuclear reactor, fission is produced in 1 g for U235 (235.0439 u) in 24 hours by slow neutrons (1.0087 u). Assume that 35Kr92 (91.8973 u) and 56Ba141 (140.9139 amu) are produced in all reactions and no energy is lost. fission is produced in 1 g for U235 (235.0439 u) in 24 hours by [...]
In a nuclear reactor, 235U undergoes fission liberating 200 MeV of energy. The reactor has a 10% efficiency and produces 1000 MW power. If the reactor is to function for 10 years,
12
Sep
In a nuclear reactor, 235U undergoes fission liberating 200 MeV of energy. The reactor has a 10% efficiency and produces 1000 MW power. If the reactor is to function for 10 years, 235U undergoes fission liberating 200 MeV of energy. The reactor has a 10% efficiency and produces 1000 MW power. If the reactor is [...]