624 Appendix: Problem Index
Q-value in^30 Si (d,p)^31 Si 8.53
Q-value for inelastic scattering 8.54
Eγfor producing 5 MeV protons in Compton like scattering 8.55
Elastic and inelastic scattering of protons from^10 B8.56
Epat 90^0 from^27 Al (d,p)^28 Al 8.57
Fusion reaction 8.58
Which is unstable^17 Oor^17 F? 8.59
Energy level diagram 8.60
Neutron and hydrogen atom mass difference 8.61
Range of neutron energy in^3 H(d,n)^4 He 8.62
Forward and backward reactions 8.63
Ethresholdfor endoergic reaction 8.64
8.2.11 Cross-Sections
Neutron absorption in indium foil 8.65
(^60) Co production in reactor 8.66, 67
σ(θ) parameters 8.68
σtfor^48 Ca (α,p)8.69
8.2.12 Nuclear Reactions via Compound Nucleus
Contribution of scattering to resonance at 0.178 eV 8.70
σ(n,γ)&σ(n,α)givenΓn,Γγ,ΓαandER 8.71
ΓelgivenER,ΓandJN=08.72
8.2.13 Direct Reactions
Spin value from detailed balance 8.73
8.2.14 Fission and Nuclear Reactors
Production and activity of^24 Na 8.75
Production and activity of^198 Au 8.76
Energy released in fission of^238 U8.77
Spatial distribution of neutrons 8.78, 87,
88, 91
Thermal utilization factor 8.79
Critical size of bare reactor 8.80
(^235) U consumption 8.81
Fission processes/second 8.82
Annual electricity consumption in Britian 8.83
Neutron flux near reactor centre 8.83
To show
Neutron moderation 8.85
Criticality of homogeneous reactor 8.86
Thermal diffusion time 8.89
Generation time 8.90
Number of collisions required for thermalization of fission
neutrons