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  4. Binding Energy Per Nucleon MCQ - Practice Questions with Answers

Binding Energy Per Nucleon MCQ - Practice Questions with Answers

Edited By admin | Updated on Sep 25, 2023 25:23 PM | #NEET

Quick Facts

  • MASS-ENERGY AND NUCLEAR BINDING ENERGY, Binding Energy Per Nucleon, Nuclear Force and Stability is considered one of the most asked concept.

  • 31 Questions around this concept.

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QuestionEASY

If M_{O} is the mass of an oxygen isotope _{8}O^{17}, M_{p}\; and\; M_{N} are the masses of a proton and a neutron respectively, the nuclear binding energy of the isotope is

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A nucleus disintegrates into two nuclear parts which have velocities in the ratio 2:1. The ratio of their nuclear sizes will be

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How does the binding energy per nucleon vary with the increase in the number of nucleons?

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When  _{3}Li^{7} nuclei are bombarded by protons, and the resultant nuclei are _{4}Be^{8} the emitted particles will be :

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Which of the following cannot be emitted by radioactive substances during their decay?

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Concepts Covered - 3

MASS-ENERGY AND NUCLEAR BINDING ENERGY

Energy mass equivalence-

Einstein showed from his theory of special relativity that it is necessary to treat mass as another form of energy.

Einstein showed that mass is another form of energy and one can convert mass-energy into other forms of energy, say kinetic energy and vice-versa. 

For this Einstein gave the famous mass-energy equivalence relation

E=m.c^{2} where c is the velocity of light in vacuum and c=3*10^8 \ m/s

or we can say \Delta E=\Delta m.c^{2} 

where \Delta m = mass defect and \Delta E = energy released

Mass defect-

It is found that the mass of a nucleus is always less than the sum of masses of its constituent nucleons in a free state.

This difference in masses is called mass defect.

Hence mass defect is given as 

 \Delta m= Sum of masses of nucleons– Mass of the nucleus

\Delta M=\left[Z m_{p}+(A-Z) m_{n}\right]-M

where

 \begin{array}{l}{m_{p}=\text { Mass of proton, } m_{n}=\text { Mass of each neutron, } } \\ {M=\text { Mass of nucleus, } Z=\text { Atomic number, } A=\text { Mass number, } }\end{array}

 

Note- The mass of a typical nucleus is about 1% less than the sum of masses of nucleons.

Packing fraction -

Mass defect per nucleon is called packing fraction.

Packing fraction measures the stability of a nucleus. Smaller the value of packing fraction, larger is the stability of the nucleus.

\text { Packing fraction }(f)=\frac{\Delta m}{A}=\frac{M-A}{A} \quad \\ \text { where } M=\text { Mass of nucleus, } A= Mass \ number

  • Packing fraction may be of positive, negative or zero value.   For example A=16 the f\rightarrow zero

 Nuclear binding energy (B.E)-

The neutrons and protons in a stable nucleus are held together by nuclear forces and energy is needed to pull them infinitely apart.

This energy is called the binding energy of the nucleus.

Or 

Amount of energy released when nucleons come together to form nucleus is called the binding energy of the nucleus.

Or

The binding energy of a nucleus may be defined as the energy equivalent to the mass defect of the nucleus.

i.e If \Delta m is mass defect then according to Einstein's mass-energy relation

then \\ Binding \ energy=\Delta m \cdot c^{2}=\left[\left\{m_{p} Z+m_{n}(A-Z)\right\}-M\right] \cdot c^{2} \ J \\ Binding \ energy =\Delta m*931 \ MeV

 

 

Binding Energy Per Nucleon

To see how nucleon binding energy varies from nucleous to nucleous, it is important to compare the binding energy on nucleon basis. A more useful measure of the binding between protons and neutrons is the binding energy per nucleon or Ebn. It is the ratio of the binding energy of a nucleus to the number of nucleons in the nucleus:

\mathrm{E_{bn}=\frac{E_b}{A}\;\;\;\;or\;\;\;\;E_{bn}=\frac{\Delta M c^2}{A}}

where, A = Number of Nucleons.

We can define binding energy per nucleon theoretically as the average energy per nucleon needed to separate a nucleus into its individual nucleons.

Let’s look at a plot of the binding energy per nucleon versus the mass number for a large number of nuclei:

Following main features of the plot is:

  1. The maximum binding energy per nucleon is around 8.75 MeV for mass number (A) = 56.
  2. The minimum binding energy per nucleon is around 7.6 MeV for mass number (A) = 238.
  3. The binding energy per nucleon, Ebn, is practically constant, i.e. practically independent of the atomic number for nuclei of middle mass number ( 30 < A < 170).
  4. Ebn is lower for both light nuclei (A<30) and heavy nuclei (A>170).

We can draw some conclusions from these four observations:

Conclusion 1

The force is attractive and sufficiently strong to produce a binding energy of a few MeV per nucleon.

Conclusion 2

  • Ebn is nearly constant in the range 30 < A < 170 because the nuclear force is short-ranged. Consider a particular nucleon inside a sufficiently large nucleus. It will be under the influence of only some of its neighbours, which come within the range of the nuclear force.
  • This means that all nucleons beyond the range of the nuclear force form NA will have no influence on the binding energy of NA. So, we can conclude that if a nucleon has ‘p’ neighbours within the range of the nuclear force, then its binding energy is proportional to ‘p’.
  • If we increase A by adding nucleons they will not change the binding energy of a nucleon inside. Since most of the nucleons in a large nucleus reside inside it and not on the surface, the change in binding energy per nucleon would be small.
  • The binding energy per nucleon is a constant and is equal to pk, where k is a constant having the dimensions of energy. Also, the property that a given nucleon influences only nucleons close to it is also referred to as saturation property of the nuclear force.

Conclusion 3

A very heavy nucleus, say A = 240, has lower binding energy per nucleon compared to that of a nucleus with A = 120. Thus if a nucleus A = 240 breaks into two A = 120 nuclei, nucleons get more tightly bound. Also, in the process energy is released. This concept is used in Nuclear Fission.

Conclusion 4

Now consider two very light nuclei with A < 10. If these two nuclei were to join to form a heavier nucleus, then the binding energy per nucleon of the fused and heavier nucleus is more than the Ebn of the lighter nuclei. So, the nucleons are more tightly bound post fusion. Again energy would be released in such a process of fusion. This is the energy source of sun,

Nuclear Force and Stability

Nuclear Force

Coulomb force is a force that determines the motion of atomic electrons. As in the previous concept, we have seen that for average mass nuclei the binding energy per nucleon is approximately 8 MeV, This is much larger than the binding energy in atoms. Hence, the nuclear force required to bind a nucleus together must be very strong and of a different type. It must be strong enough to overcome the repulsion between the (positively charged) protons and to bind both protons and neutrons into the tiny nuclear volume.

Le's look at the features of this force, also called the nuclear binding force which are obtained from many xperiments which were v in between 1930 and 1950.

  1. The nuclear force is much stronger than the Coulomb force acting between charges or the gravitational forces between masses. This is because the nuclear force needs to overpower the Coulomb repulsive force between the like-charged protons inside the nucleus. Hence, the nuclear force > the Coulomb force. Also, the gravitational force much weaker than the Coulomb force.
  2. The nuclear force between two nucleons falls rapidly to zero as their distance is more than a few femtometres. This leads to a saturation of forces in a medium or a large-sized nucleus, which is the reason for the constancy of the binding energy per nucleon. Also, if the distance falls below 0.7fm, then this force becomes repulsive. A rough plot of the potential energy between two nucleons as a function of distance is shown below.

                 

               The potential energy of two nucleons as a function of the distance between them.

               \begin{array}{l}{\text { If distance }>r_{\alpha}, \text { then nuclear force }=\text { attractive }} \\ {\text { If distance }<r_{\alpha} \text { the nuclear force }=\text { repulsive }}\end{array}

  1. The nuclear force between neutron-neutron, proton-neutron and proton-proton is approximately the same. The nuclear force does not depend on the electric charge.

Nuclear Stability

Nuclear Stability is a concept that helps to identify the stability of an isotope. The two main factors that determine nuclear stability are the neutron/proton ratio (neutron to proton ratio.) and the total number of nucleons in the nucleus.

NEUTRON/PROTON RATIO

The graph below is a plot of the number of neutrons versus the number of protons in various stable isotopes. Stable nuclei with atomic numbers up to about 20 have an n/p ratio of about 1/1.

wps.prenhall.com

Above Z = 20, the number of neutrons always exceeds the number of protons in stable isotopes. The stable nuclei are located in the pink band known as the belt of stability. The belt of stability ends at lead-208.

NUMBER OF NUCLEONS

No nucleus higher than lead-208 is stable. That's because, although the nuclear strong force is about 100 times as strong as the electrostatic repulsions, it operates over only very short distances. When a nucleus reaches a certain size, the strong force is no longer able to hold the nucleus together.

 

Study it with Videos

MASS-ENERGY AND NUCLEAR BINDING ENERGY
Binding Energy Per Nucleon
Nuclear Force and Stability

Study other Related Concepts

Binding Energy Per Nucleon Current Topic

Rutherford's Atomic Model And Limitations
Bohr Model Of The Hydrogen Atom
Energy Level - Bohr's Atomic Model
Line Spectra Of Hydrogen Atom
De-broglie's Explanation Of Bohr's Second Postulate
Effect Of Nucleus Motion On Energy
Atomic Collision
Nucleus Structure
Binding Energy Per Nucleon
Radioactive Decay

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