ATOMIC AND NUCLEAR PHYSICS PLEASE HELP ANSWER ALL THE QUESTIONS BELOW: (a) Using the Fermi gas model, calculate the energy of the lowest state for Thorium nucleus (Th). Hint: Use the nuclear radius R = RoA¹/3, where Ro=1.2 fm and A the atomic mass number. 3/3) 2/3 2N5/3 +25 -, where h is the Planck constant and m the atomic mass. m √2/3 +75/3 E-2 (²³) ² Consider the nucleus to be a sphere of volume V. (b) The nuclear binding energy B(Z.A), can be given by the following expression - a ₁ (2 - 4- ) ²₁ -² + (−1)² + (−1)ª 2 B(Z,A) ay A-as A2/3-acZ²A¹/3- ay = 15.85 MeV/2², as = 18.34 MeV/e², ac = 0.71 MeV/e² A = 92.8 MeV/e², ap=11.20 MeV/², apA-1/2 where Z is the nuclear charge. Calculate the energy required to remove one protons (S2) or neutrons (S2) from C nucleus.
ATOMIC AND NUCLEAR PHYSICS PLEASE HELP ANSWER ALL THE QUESTIONS BELOW: (a) Using the Fermi gas model, calculate the energy of the lowest state for Thorium nucleus (Th). Hint: Use the nuclear radius R = RoA¹/3, where Ro=1.2 fm and A the atomic mass number. 3/3) 2/3 2N5/3 +25 -, where h is the Planck constant and m the atomic mass. m √2/3 +75/3 E-2 (²³) ² Consider the nucleus to be a sphere of volume V. (b) The nuclear binding energy B(Z.A), can be given by the following expression - a ₁ (2 - 4- ) ²₁ -² + (−1)² + (−1)ª 2 B(Z,A) ay A-as A2/3-acZ²A¹/3- ay = 15.85 MeV/2², as = 18.34 MeV/e², ac = 0.71 MeV/e² A = 92.8 MeV/e², ap=11.20 MeV/², apA-1/2 where Z is the nuclear charge. Calculate the energy required to remove one protons (S2) or neutrons (S2) from C nucleus.
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ATOMIC AND NUCLEAR PHYSICS
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PLEASE HELP ANSWER ALL THE QUESTIONS BELOW:
3
(a) Using the Fermi gas model, calculate the energy of the lowest state for Thorium nucleus (Th).
Hint: Use the nuclear radius R = R₁A¹/3, where Ro = 1.2 fm and A the atomic mass number.
2/3h²N5/3 +25/3
E
G
(3) ²
40
V2/3, where h is the Planck constant and m the atomic mass.
m
Consider the nucleus to be a sphere of volume V.
(b) The nuclear binding energy B(Z,A), can be given by the following expression
2
A¹+
- 4 ) ² ₁²³² + (−1)² + (-1) ²³/
2
B(ZA) ay A-as A²/3-acZ²A¹/3-a Z-
=
15.85 MeV/c², ag=18.34 MeV/c², ac = 0.71 MeV/c²
=
ay
aA = 92.8 MeV/c², ap=11.20 MeV/c²,
apA-1/2
where Z is the nuclear charge.
Calculate the energy required to remove one protons (S2p) or neutrons (S2) from C nucleus.
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