Appendix: Problem Index 619
Mass of kaon from its decay characteristics 6.97
Neutral pions of fixed energy decay into twoγ-rays, velocity and
rest mass energy of pion, energy and angular distribution of
γ-rays angle between twoγ-rays and minimum angle
6.98, 99,
100, 101,
103, 104
In problem 6.98, locus of the tip of momentum vector and the
disparity for the ratio ofγ-ray energy
6.102, 105
Maximum lab angle ofK∗produced in pion-proton collision 6.106
Relativistic transformations of velocity and angle 6.107
Relative Doppler shift of wavelength of light from excited
carbon atoms
6.108
Fractional change of frequency of a spectral line of a star 6.109
Angle between the two photons in the lab fromπ^0 decay when
emitted at right angles in the pion system
6.110
Velocity of a moving object from aberration of light 6.111
The product of the longitudinal component of the length of a rod
and the tangent of its orientation
6.112
6.2.6 Threshold of Particle Production
Threshold energy forp−p pair production in p–p collision 6.113
Threshold energy fore−e+pair production inγ−e−collision 6.114
Threshold energy for pion collision in N–N collision 6.115
The threshold for antiproton production with Fermi energy 6.116
Threshold energy forγ+p→K+∗+Λ 6.117
Threshold energy for two pion production in pion-hydrogen
collision
6.118
Threshold energy forπ−+p→K^0 +Λ 6.119
Threshold energy for nπproduction in p–p collision 6.120
Threshold energy forγ+p→p+π^0 6.121
Threshold energy forπ−+p→Ξ−+K++K^0 6.122
Lower limit for the mass of W+boson in neutrino-proton
interaction
6.123
Threshold energy and invariant mass of the system in
p+p→p+Λ+K+at threshold energy
6.124
Minimum K−momentum forΩ−production in
K−+P→K^0 +K++Ω−
6.125
Feasibility ofP+P→d+π, in Cu target, with Fermi
momentum
6.126
Chapter 7 Nuclear Physics I
7.2.1 Kinematics of Scattering
Elastic scattering 7.1, 4
Maximum scattering angle 7.2, 5
Quasi elastic scattering 7.3
Scattering in CMS 7.6
vmaximparted 7.7