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Chapter 11: Q20E (page 518)

By classical, hard sphere assumption, what smallest value of A would make one nucleon surrounded. Relate your answer with figure 11.14.

Short Answer

Expert verified

The smallest number of nucleons to surround a nucleon is 6.

Step by step solution

01

Given data

There will be three nucleons on each layer above and below the nucleon.

02

Concept of  α particle

Alpha particles are composite particles consisting of two protons and two neutrons tightly bound together.

03

Calculation for the smallest value of  A

The smallest number of nucleons to surround a nucleon is6.

That is when a sphere is surrounded by one sphere above, one below, one left, one right, one in front, and one on the back.

In addition to it there will be three nucleons on each layer above and below the nucleon.

So the minimum number of nucleons surrounded by each nucleon is 12hence the minimum number of nucleons in the nucleus is 13.

Since adding more nucleons could make the center nucleon surrounded by more nucleons and thus increase me binding energy.

So a nucleus with 13nucleons increases the binding energy enormously up to the point (A=13) is reached as shown in figure 11.14 and after this point the binding energy increases slowly with increase in atomic number unto (A=56)

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Most popular questions from this chapter

To remove one electron from helium requires 24.6eV. and removing its second takes 54.5eV. The ionization energy of hydrogen is 13.6eV. When applied to helium -4 by what percentage is equation (11-5) in error due to its ignoring of electronic binding energies?

Question:How is it that a high binding energy is a low energy?

a) For a nucleus of A=220, estimate very roughly how many nucleons would be at the surface.

b) If the binding energy of an interior nucleon due to the internucleon attraction were E1 and if all nucleon were are tightly bound, the total binding energy would beAE1 . Taking into account the different binding of surface nucleons, roughly what would be the total binding energy?

Eighty centuries after its death, what will be the decay rate of 1g of carbon from the thigh bone of an animal?

By considering how many other spheres could be put in contact with a given sphere, calculate the maximum possible number of strong bonds per nucleon for a surrounded nucleon. (Note: Because nucleons share a bond, each nucleon "owns" only half a given bond.) Recalling that the deuteron. H2has half a bond per nucleon, how does your calculated maximum number correspond to Figure 11.14?
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