(a) Our best bet is to model the interaction between neutrons and protons as simply as possible (butno simpler!). The shell model considers each nucleon to move independently due to the average of all the others. The potential energy diagrams – one for the neutron (left) and one for the proton (right) – of the shell model are shown below. Describe, briefly, the similarities and differences between the two potential energy diagrams. In particular, make note of what happens at r> R. Upreston (MeV) 10- Uneutron (MeV) Radius of the nucleus R R -35 -50

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(a) Our best bet is to model the interaction between neutrons and protons as simply as possible (butno simpler!).
The shell model considers each nucleon to move independently due to the average of all the others. The
potential energy diagrams – one for the neutron (left) and one for the proton (right) – of the shell model are
shown below. Describe, briefly, the similarities and differences between the two potential energy diagrams.
In particular, make note of what happens at r> R.
Upreston (MeV)
10-
Uneutron (MeV)
Radius of the
nucleus
R
R
-35
-50
Transcribed Image Text:(a) Our best bet is to model the interaction between neutrons and protons as simply as possible (butno simpler!). The shell model considers each nucleon to move independently due to the average of all the others. The potential energy diagrams – one for the neutron (left) and one for the proton (right) – of the shell model are shown below. Describe, briefly, the similarities and differences between the two potential energy diagrams. In particular, make note of what happens at r> R. Upreston (MeV) 10- Uneutron (MeV) Radius of the nucleus R R -35 -50
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