CBSE Sample Question Paper for Physics Class XII (2022-2023), Exams of Physics

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Class: XII
SESSION : 2022-2023
CBSE SAMPLE QUESTION PAPER (THEORY)
SUBJECT: PHYSICS
Maximum Marks: 70 Marks Time Allowed: 3 hours.
General Instructions:
(1) There are 35 questions in all. All questions are compulsory
(2) This question paper has five sections: Section A, Section B, Section C, Section D and
Section E. All the sections are compulsory.
(3) Section A contains eighteen MCQ of 1 mark each, Section B contains seven questions
of two marks each, Section C contains five questions of three marks each, section D
contains three long questions of five marks each and Section E contains two case study
based questions of 4 marks each.
(4) There is no overall choice. However, an internal choice has been provided in section
B, C, D and E. You have to attempt only one of the choices in such questions.
5. Use of calculators is not allowed.
SECTION A
Q.
NO.
MARKS
1 According to Coulomb's law, which is the correct relation for the
following figure?
(i) q1 q2> 0
(ii) q1 q2<0
(iii) q1 q2 =0
(iv) 1> q1
/
q2 > 0
1
2 The electric potential on the axis of an electric dipole at a distance
‘r from it’s centre is V. Then the potential at a point at the same
distance on its equatorial line will be
(i) 2V
(ii) -V
(iii) V/2
(iv) Zero
1
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Class: XII SESSION : 2022- CBSE SAMPLE QUESTION PAPER (THEORY) SUBJECT: PHYSICS Maximum Marks: 70 Marks Time Allowed: 3 hours. General Instructions: (1) There are 35 questions in all. All questions are compulsory (2) This question paper has five sections: Section A, Section B, Section C, Section D and Section E. All the sections are compulsory. (3) Section A contains eighteen MCQ of 1 mark each, Section B contains seven questions of two marks each, Section C contains five questions of three marks each, section D contains three long questions of five marks each and Section E contains two case study based questions of 4 marks each. (4) There is no overall choice. However, an internal choice has been provided in section B, C, D and E. You have to attempt only one of the choices in such questions.

  1. Use of calculators is not allowed. SECTION A Q. NO. MARKS 1 According to Coulomb's law, which is the correct relation for the following figure? (i) q 1 q 2 > 0 (ii) q 1 q 2 < (iii) q 1 q 2 = (iv) 1> q (^1) / q 2 > 0

2 The electric potential on the axis of an electric dipole at a distance ‘r from it’s centre is V. Then the potential at a point at the same distance on its equatorial line will be (i) 2V (ii) -V (iii) V/ (iv) Zero

3 The temperature (T) dependence of resistivity of materials A and material B is represented by fig (i) and fig (ii) respectively. Identify material A and material B. (i) material A is copper and material B is germanium (ii) material A is germanium and material B is copper (iii) material A is nichrome and material B is germanium (iv) material A is copper and material B is nichrome

4 Two concentric and coplanar circular loops P and Q have their radii in the ratio 2:3. Loop Q carries a current 9 A in the anticlockwise direction. For the magnetic field to be zero at the common centre, loop P must carry (i) 3A in clockwise direction (ii) 9A in clockwise direction (iii) 6 A in anti-clockwise direction (iv) 6 A in the clockwise direction.

5 A long straight wire of circular cross section of radius a carries a steady current I. The current is uniformly distributed across its cross section. The ratio of the magnitudes of magnetic field at a point distant a/2 above the surface of wire to that at a point distant a/2 below its surface is (i) 4 : (ii) 1: (iii) 4: 3 (iv) 3 :

6 If the magnetizing field on a ferromagnetic material is increased, its permeability (i) decreases (ii) increases (iii) remains unchanged (iv) first decreases and then increases

10 In a Young’s double slit experiment, the path difference at a certain point on the screen between two interfering waves is 𝟏 𝟖 th of the wavelength. The ratio of intensity at this point to that at the centre of a bright fringe is close to (i) 0. (ii) 0. (iii) 0. (iv) 0.

11 The work function for a metal surface is 4.14 eV. The threshold wavelength for this metal surface is: (i) 4125 Å (ii) 2062.5 Å (iii) 3000 Å (iv) 6000 Å

12 The radius of the innermost electron orbit of a hydrogen atom is 5.3×10–11^ m. The radius of the n =3 orbit is (i) 1.01 x 10-10m (ii) 1.59 X 10-10m (iii) 2.12 x 10-10m (iv) 4.77 X 10-10m

13 Which of the following statements about nuclear forces is not true? (i) The nuclear force between two nucleons falls rapidly to zero as their distance is more than a few femtometres. (ii) The nuclear force is much weaker than the Coulomb force. (iii) The force is attractive for distances larger than 0.8 fm and repulsive if they are separated by distances less than 0.8 fm. (iv) The nuclear force between neutron-neutron, proton-neutron and proton-proton is approximately the same.

14 If the reading of the voltmeter V 1 is 40 V, then the reading of voltmeter V 2 is

(i) 30 V (ii) 58 V (iii) 29 V (iv) 15 V 15 The electric potential V as a function of distance X is shown in the figure. The graph of the magnitude of electric field intensity E as a function of X is

(i) (ii) (iii) (^) (iv) 16 Two statements are given-one labelled Assertion (A) and the other labelled Reason (R). Select the correct answer to these questions from the codes (a), (b), (c) and (d) as given below. a) Both A and R are true and R is the correct explanation of A b) Both A and R are true and R is NOT the correct explanation of A

The energy of electrons emitted from inside the metal surface, is lost in collision with the other atoms in the metal. SECTION B 19 Electromagnetic waves with wavelength (i) λ 1 is suitable for radar systems used in aircraft navigation. (ii) λ 2 is used to kill germs in water purifiers. (iii) λ 3 is used to improve visibility in runways during fog and mist conditions. Identify and name the part of the electromagnetic spectrum to which these radiations belong.Also arrange these wavelengths in ascending order of their magnitude.

20 A uniform magnetic field gets modified as shown in figure when two specimens A and B are placed in it. (i)Identify the specimen A and B. (ii) How is the magnetic susceptibility of specimen A different from that of specimen B?

21 What is the nuclear radius of 125 Fe ,if that of 27 Al is 3.6 fermi?. OR The short wavelength limit for the Lyman series of the hydrogen spectrum is 913.4 A^0. Calculate the short wavelength limit for the Balmer series of the hydrogen spectrum.

A biconvex lens made of a transparent material of refractive index 1. is immersed in water of refractive index 1.33. Will the lens behave as a converging or a diverging lens? Justify your answer.

23 The figure shows a piece of pure semiconductor S in series with a variable resistor R and a source of constant voltage V. Should the value of R be increased or decreased to keep the reading of the ammeter constant, when semiconductor S is heated? Justify your answer OR The graph of potential barrier versus width of depletion region for an unbiased diode is shown in graph A. In comparison to A ,graphs B and C are obtained after biasing the diode in different ways .Identify the type of biasing in B and C and justify your answer.

A narrow slit is illuminated by a parallel beam of monochromatic light of wavelength λ equal to 6000 Å and the angular width of the central maximum in the resulting diffraction pattern is measured. When the slit is next illuminated by light of wavelength λ’, the angular width decreases by 30%. Calculate the value of the wavelength λ’.

Two large, thin metal plates are parallel and close to each other. On their inner faces, the plates have surface charge densities of opposite signs and of magnitude 17.7 × 10-22^ C/m^2. What is electric field intensity E: (a) in the outer region of the first plate, and (b) between the plates?

Surface C: photo emission occurs and photoelectrons have some kinetic energy. Using Einstein’s photo-electric equation, explain the three observations. OR The graph shows the variation of photocurrent for a photosensitive metal (a)What does X and A on the horizontal axis represent? (b)Draw this graph for three different values of frequencies of incident radiation ʋ 1 , ʋ 2 and ʋ 3 (ʋ 3 >ʋ 2 >ʋ 1 ) for the same intensity. (c) Draw this graph for three different values of intensities of incident radiation I 1 , I 2 and I 3 (I 3 > I 2 >I 1 ) having the same frequency. 30 The ground state energy of hydrogen atom is -13.6 eV. The photon emitted during the transition of electron from n=3 to n=1 state, is incident on a photosensitive material of unknown work function .The photoelectrons are emitted from the material with the maximum kinetic energy of 9eV.Calculate the threshold wavelength of the material used.

SECTION D

31 (a)Draw equipotential surfaces for (i)an electric dipole and (ii) two identical positive charges placed near each other. (b) In a parallel plate capacitor with air between the plates, each plate has an area of 6 x 10-3m^2 and the separation between the plates is 3 mm. (i) Calculate the capacitance of the capacitor. (ii) If the capacitor is connected to 100V supply, what would be the the charge on each plate? (iii) How would charge on the plate be affected if a 3 mm thick mica sheet of k=6 is inserted between the plates while the voltage supply remains connected ?.

OR

(a)Three charges –q, Q and –q are placed at equal distances on a straight line. If the potential energy of the system of these charges is zero, then what is the ratio Q:q? (b)(i) Obtain the expression for the electric field intensity due to a uniformly charged spherical shell of radius R at a point distant r from the centre of the shell outside it. (ii) Draw a graph showing the variation of electric field intensity E with r, for r > R and r < R. 32 (a) Explain the term drift velocity of electrons in a conductor .Hence obtain the expression for the current through a conductor in terms of drift velocity. (b) Two cells of emfs E 1 and E 2 and internal resistances 𝑟ଵand 𝑟ଶ respectively are connected in parallel as shown in the figure. Deduce the expression for the (i) equivalent emf of the combination (ii) equivalent internal resistance of the combination (iii) potential difference between the points A and B. OR (a) State the two Kirchhoff’s rules used in the analysis of electric circuits and explain them. (b) Derive the equation of the balanced state in a Wheatstone bridge using Kirchhoff’s laws.

33 a) Draw the graph showing intensity distribution of fringes with phase angle due to diffraction through a single slit. What is the width of the central maximum in comparison to that of a secondary maximum? b) A ray PQ is incident normally on the face AB of a

34 Case Study :

Read the following paragraph and answer the questions.

A number of optical devices and instruments have been

designed and developed such as periscope, binoculars,

microscopes and telescopes utilising the reflecting and refracting

properties of mirrors, lenses and prisms. Most of them are in

common use. Our knowledge about the formation of images by

the mirrors and lenses is the basic requirement for

understanding the working of these devices.

(i) Why the image formed at infinity is often considered most

suitable for viewing. Explain

(ii) In modern microscopes multicomponent lenses are used for

both the objective and the eyepiece. Why?

(iii) Write two points of difference between a compound

microscope and an astronomical telescope

OR

(iii) Write two distinct advantages of a reflecting type telescope

over a refracting type telescope.

35 Case study: Light emitting diode. Read the following paragraph and answer the questions LED is a heavily doped P-N junction which under forward bias emits spontaneous radiation. When it is forward biased, due to recombination of holes and electrons at the junction, energy is released in the form of photons. In the case of Si and Ge diode, the energy released in recombination lies in the infrared region. LEDs that can emit red, yellow, orange, green and blue light are commercially available. The semiconductor used for fabrication of visible LEDs must at least have a band gap of 1.8 eV. The compound semiconductor Gallium Arsenide – Phosphide is used for making LEDs of different colours.

LEDs of different kinds (i). Why are LEDs made of compound semiconductor and not of elemental semiconductors? (ii) What should be the order of bandgap of an LED, if it is required to emit light in the visible range? (iii) A student connects the blue coloured LED as shown in the figure. The LED did not glow when switch S is closed. Explain why? OR (iii) Draw V-I characteristic of a p-n junction diode in (i) forward bias and (ii) reverse bias