Plutonium fissioned in a microsecond
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Exercise:
The prompt neutron generation time is the erval between the birth of a prompt neutron and the emission of a descant neutron asing it causes fission. In highly enriched material such as isotopePu this time is approximately TO. In theory how much plutonium mass can be fissioned within tO under these conditions if we with one neutron and neutrons decrease by kO from generation to generation?
Solution:
Geg T TO T t t t k kO k GesMassmsikg There is time for i fractT fractT iP neutron generations; that amounts to SolQtysi*kX^iX+-/kX- SolQtynisiX/ncNAnmol s_i N_ frack^i+-k- frackO^iP+-kO- si n_i fracN_sscNA frack^i+-k- ni neutrons in total. Under optimal conditions NewQtyM.kgpmol SolQtymniX*MXkg m n_i M fracN_sscNA frack^i+-k- M ni M m could be fissioned. m fracN_sscNA frack^i+-k- M m
The prompt neutron generation time is the erval between the birth of a prompt neutron and the emission of a descant neutron asing it causes fission. In highly enriched material such as isotopePu this time is approximately TO. In theory how much plutonium mass can be fissioned within tO under these conditions if we with one neutron and neutrons decrease by kO from generation to generation?
Solution:
Geg T TO T t t t k kO k GesMassmsikg There is time for i fractT fractT iP neutron generations; that amounts to SolQtysi*kX^iX+-/kX- SolQtynisiX/ncNAnmol s_i N_ frack^i+-k- frackO^iP+-kO- si n_i fracN_sscNA frack^i+-k- ni neutrons in total. Under optimal conditions NewQtyM.kgpmol SolQtymniX*MXkg m n_i M fracN_sscNA frack^i+-k- M ni M m could be fissioned. m fracN_sscNA frack^i+-k- M m