ATOMIC AND NUCLEAR PHYSICS PLEASE HELP ANSWER ALL THE QUESTIONS BELOW: (a) A nucleus X has a quadruple moment 4.20 barns- 4.20 x 10-24 cm² - 420 fm². It is assumed to be deformed and its axes are a -7.1 fm and 6-6.0 fm. If the nuclear density is p=0.17 fm-³. find the charge and atomic mass of this nucleus. (b) A certain even-parity shell-model state can hold up to a maximum of 24 nucleons; what are its values of j and ? (c) The 50 (111.9556 MeV) nucleus in the 1p1/2 state is an 160 (127.6193 MeV) nucleus deficit in one neutron (50+n+O) and FO (131.7627 MeV) in 1/s/2 state is an 60 with a surplus neutron (50 +n → FO). Find the energy gap [E(1) - E(1p)] between 1p1/2 and 1/5/2 states. Hint: First find B(¹50) - B(¹160), and B(¹60) - B(¹70) energies.
ATOMIC AND NUCLEAR PHYSICS PLEASE HELP ANSWER ALL THE QUESTIONS BELOW: (a) A nucleus X has a quadruple moment 4.20 barns- 4.20 x 10-24 cm² - 420 fm². It is assumed to be deformed and its axes are a -7.1 fm and 6-6.0 fm. If the nuclear density is p=0.17 fm-³. find the charge and atomic mass of this nucleus. (b) A certain even-parity shell-model state can hold up to a maximum of 24 nucleons; what are its values of j and ? (c) The 50 (111.9556 MeV) nucleus in the 1p1/2 state is an 160 (127.6193 MeV) nucleus deficit in one neutron (50+n+O) and FO (131.7627 MeV) in 1/s/2 state is an 60 with a surplus neutron (50 +n → FO). Find the energy gap [E(1) - E(1p)] between 1p1/2 and 1/5/2 states. Hint: First find B(¹50) - B(¹160), and B(¹60) - B(¹70) energies.
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Hi, please answer (b) and (c)
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