Class 12 Important Questions for Physics – Nuclei
NCERT Exemplar Class 12 Physics is very important resource for students preparing for XII Board Examination. Here we have provided NCERT Exemplar Problems Solutions along with NCERT Exemplar Problems Class 12.
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Here you can get Class 12 Important Questions Physics based on NCERT Text book for Class XII. Physics Class 12 Important Questions are very helpful to score high marks in board exams. Here we have covered Important Questions on Nuclei for Class 12 Physics subject.
Physics Important Questions Class 12 are given below.
Multiple Choice Questions (MCQ I)
- Suppose we consider a large number of containers each containing initially 10000 atoms of a radioactive material with a half life of 1 year. After 1 year,
- (a) all the containers will have 5000 atoms of the material.
- (b) all the containers will contain the same number of atoms of the material but that number will only be approximately 5000.
- (c) the containers will in general have different numbers of the atoms of the material but their average will be close to 5000.
- (d) none of the containers can have more than 5000 atoms.
- The gravitational force between a H-atom and another particle of mass m will be given by Newton’s law:
- (a) M = mproton + melectron.
- (b) M = mproton + melectron – (B/c2) (B = 13.6 eV).
- (c) M is not related to the mass of the hydrogen atom.
- (d) M = mproton + melectron – (|V|/c2) (|V| = magnitude of the potential energy of electron in the H-atom).
- When a nucleus in an atom undergoes a radioactive decay, the electronic energy levels of the atom
- (a) do not change for any type of radioactivity .
- (b) change for α and β radioactivity but not for γ-radioactivity.
- (c) change for α-radioactivity but not for others.
- (d) change for β-radioactivity but not for others.
- Mx and My denote the atomic masses of the parent and the daughter nuclei respectively in a radioactive decay. The Q-value for a β – decay is Q1 and that for a β + decay is Q2. If me denotes the mass of an electron, then which of the following statements is correct?
- (a) Q1 = (Mx – My) c2 and Q2 = (Mx – My) – 2me))c2
- (b) Q1 = (Mx – My) c2 and Q2 = (Mx – My))c2
- (c) Q1 = (Mx – My – 2me) c2 and Q2 = (Mx – My) + 2 me)c2
- (d) Q1 = (Mx – My + 2me) c2 and Q2 = (Mx – My) + 2 me)c2
- Tritium is an isotope of hydrogen whose nucleus Triton contains 2 neutrons and 1 proton. Free neutrons decay into p + e + v . If one of the neutrons in Triton decays, it would transform into He3 nucleus. This does not happen. This is because
- (a) Triton energy is less than that of a He3 nucleus.
- (b) the electron created in the beta decay process cannot remain in the nucleus.
- (c) both the neutrons in triton have to decay simultaneously resulting in a nucleus with 3 protons, which is not a He3 nucleus.
- (d) because free neutrons decay due to external perturbations which is absent in a triton nucleus.
- Heavy stable nucle have more neutrons than protons. This is because of the fact that
- (a) neutrons are heavier than protons.
- (b) electrostatic force between protons are repulsive.
- (c) neutrons decay into protons through beta decay.
- (d) nuclear forces between neutrons are weaker than that between protons.
- In a nuclear reactor, moderators slow down the neutrons which come out in a fission process. The moderator used have light nuclei. Heavy nuclei will not serve the purpose because
- (a) they will break up.
- (b) elastic collision of neutrons with heavy nuclei will not slow them down.
- (c) the net weight of the reactor would be unbearably high.
- (d) substances with heavy nuclei do not occur in liquid or gaseous state at room temperature.
Multiple Choice Questions (MCQ II)
- Fusion processes, like combining two deuterons to form a He nucleus are impossible at ordinary temperatures and pressure.
The reasons for this can be traced to the fact:
- (a) nuclear forces have short range.
- (b) nuclei are positively charged.
- (c) the original nuclei must be completely ionized before fusion can take place.
- (d) the original nuclei must first break up before combining with each other.
- Samples of two radioactive nuclides A and B are taken. λA and λB are the disintegration constants of A and B respectively. In which of the following cases, the two samples can simultaneously have the same decay rate at any time?
- (a) Initial rate of decay of A is twice the initial rate of decay of B and λA = λB.
- (b) Initial rate of decay of A is twice the initial rate of decay of B and λA > λB.
- (c) Initial rate of decay of B is twice the initial rate of decay of A and λA > λB.
- (d) Initial rate of decay of B is same as the rate of decay of A at t = 2h and λB < λA.
- The variation of decay rate of two radioactive samples A and B with time is shown in Fig. 13.1.
Which of the following statements are true?
- (a) Decay constant of A is greater than that of B, hence A always decays faster than B.
- (b) Decay constant of B is greater than that of A but its decay rate is always smaller than that of A.
- (c) Decay constant of A is greater than that of B but it does not always decay faster than B.
- (d) Decay constant of B is smaller than that of A but still its decay rate becomes equal to that of A at a later instant.
Very Short Answer Type Questions
- He23 and He13 nuclei have the same mass number. Do they have the same binding energy?
- Draw a graph showing the variation of decay rate with number of active nuclei.
- Which sample, A or B shown in Fig. 13.2 has shorter mean-life?
- Which one of the following cannot emit radiation and why? Excited nucleus, excited electron.
- In pair annihilation, an electron and a positron destroy each other to produce gamma radiation. How is the momentum conserved?
Short Answer Type Questions
- Why do stable nuclei never have more protons than neutrons?
- Consider a radioactive nucleus A which decays to a stable nucleus C through the following sequence:
A → B → C
Here B is an intermediate nuclei which is also radioactive. Considering that there are N0 atoms of A initially, plot the graph showing the variation of number of atoms of A and B versus time.
- A piece of wood from the ruins of an ancient building was found to have a 14C activity of 12 disintegrations per minute per gram of its carbon content. The 14C activity of the living wood is 16 disintegrations per minute per gram. How long ago did the tree, from which the wooden sample came, die? Given half-life of 14C is 5760 years.
- Are the nucleons fundamental particles, or do they consist of still smaller parts? One way to find out is to probe a nucleon just as Rutherford probed an atom. What should be the kinetic energy of an electron for it to be able to probe a nucleon? Assume the diameter of a nucleon to be approximately 10-15 m.
- A nuclide 1 is said to be the mirror isobar of nuclide 2 if Z1 =N2 and Z2 = N1 .
(a) What nuclide is a mirror isobar of 2311Na ?
(b) Which nuclide out of the two mirror isobars have greater binding energy and why?
Long Answer Type Questions
- Sometimes a radioactive nucleus decays into a nucleus which itself is radioactive. An example is :
Assume that we start with 1000 38S nuclei at time t = 0. The number of 38Cl is of count zero at t = 0 and will again be zero at t = ∞ . At what value of t, would the number of counts be a maximum?
- Deuteron is a bound state of a neutron and a proton with a binding energy B = 2.2 MeV. A γ -ray of energy E is aimed at a deuteron nucleus to try to break it into a (neutron + proton) such that the n and p move in the direction of the incident γ-ray.
If E = B, show that this cannot happen. Hence calculate how much bigger than B must E be for such a process to happen.
- The deuteron is bound by nuclear forces just as H-atom is made up of p and e bound by electrostatic forces. If we consider the force between neutron and proton in deuteron as given in the form of a Coulomb potential but with an effective chargee′ :
estimate the value of (e’/e) given that the binding energy of a deuteron is 2.2 MeV.
- Before the neutrino hypothesis, the beta decay process was throught to be the transition,
n → p + e
If this was true, show that if the neutron was at rest, the proton and electron would emerge with fixed energies and calculate them.Experimentally, the electron energy was found to have alarge range.
- The activity R of an unknown radioactive nuclide is measured at hourly intervals. The results found are tabulated as follows:
(i) Plot the graph of R versus t and calculate half-life from the graph.
(ii) Plot the graph of (R/R0) versus t and obtain the value of half-life from the graph.
- Nuclei with magic no. of proton Z = 2, 8, 20, 28, 50, 52 and magic no. of neutrons N = 2, 8, 20, 28, 50, 82 and 126 are found to be very stable.
(i) Verify this by calculating the proton separation energy Sp for 120Sn (Z = 50) and 121Sb = (Z = 51).
The proton separation energy for a nuclide is the minimum energy required to separate the least tightly bound proton from a nucleus of that nuclide. It is given by Sp = (MZ–1, N + MH – MZ,N) c2.
Given 119In = 118.9058u, 120Sn = 119.902199u, 121Sb = 120.903824u, 1H = 1.0078252u.
(ii) What does the existence of magic number indicate?
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Answers to Multiple Choice Questions
|(MCQ I)||(MCQ II)|
Class 12 Important Questions for Physics all topics
Physics Important Questions Class 12 are given below chapter wise.
- Electric Charges and Fields
- Electrostatic Potential and Capacitance
- Current Electricity
- Moving Charges and Magntism
- Magnetism and Matter
- Electromagnetic Induction
- Alternating Current
- Electromagnetic Waves
- Ray Optics and Optical Instruments
- Wave Optics
- Dual Nature of Radiation and Matter
- Semiconductor Electronics: Materials, Devices and Simple Circuits
- Communication Systems