Introduction to Nuclear Reactor Theory |
Contents
Review of Nuclear Physics | 5 |
Chapter 2 | 17 |
Chapter 10 | 42 |
Copyright | |
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Common terms and phrases
absorption cross section age theory approximately assumed atom average boundary conditions calculations center-of-mass system Chapter cm³/sec collision density computed Consider constant control rods core critical decay decreases defined delayed neutrons derived determined diffusion equation diffusion theory distribution E. P. WIGNER eigenfunctions elastic scattering equal fast neutrons Fick's law finite fissile fission neutrons fission products follows formula function homogeneous hydrogen incident neutron increases inelastic infinite medium inserted isotope laboratory lattice lethargy macroscopic mass mean free path method mixture neutrons emitted neutrons slow Nuclear Reactor nuclei number of neutrons one-group parameters problem prompt neutrons radiative capture radius reaction reactivity Reactor Theory reflector region resonance escape probability resonance integral result scattering cross section Show shown in Fig slab slowing-down density solution source emitting surface temperature coefficient thermal flux thermal neutrons thermal reactor total number two-group uranium zero Σα ΦΤ