Can any of you here please share the question paper of CBSE XII Physics Exam???

As per your request here I am sharing the question paper of CBSE XII Physics Exam

All questions are compulsory.
1. Draw the equipotential surfaces for two point charges each of magnitude
q > 0 placed at some finite distance? 1
2. A bar magnet of dipole moment M is cut into two equal parts along its
axis. What is the new pole strength of each part. 1
3. A rod of length L, along East-West direction is dropped from a height H.
if B be the magnetic field due to earth at that place and angle of dip is
, then what is the magnitude of induced emf across two ends of the rod
when the rod reaches the earth? 1
4. Which characteristic of the following electromagnetic waves (i) increases
(ii) remains same as we move along -radiation, ultraviolet rays,
microwaves and radio waves? 1
5. Two polaroids are placed with their optic axis perpendicular to each other.
One of them is rotated through 45° what is the intensity of light emerging
from the second polaroid if I0 is the intensity of unpolarised light? 1
6. Sketch the graph showing the variation of applied voltage and photo
electric current for (i) same frequency and two different intensities, and
(ii) same intensity and two different frequencies. 1
7. What happens to the width of depletion layer of a p-n junction diode when
it is (i) forward biased (ii) reverse biased. 1
8. Four equal charges +q, –q and +q are placed at the vertices P, Q and R
of an equilateral triangle of side ‘a’. What is the electric potential at the


centre of the triangle? How will your answer change if position of charges
at P and Q are interchanged? 2
9. What are ohmic and non-ohmic conductors? Give one example of each.
Why can one not measure the resistance of a p-n junction is measured
by using a voltmeter? 2
10. A charged particle enters a magnetic field perpendicular to it. The particle
follows a zigzag path and comes out of it. What happens to its velocity
and kinetic energy of the particle? Justify your answer. 2
11. Two solenoids each of length L are wound over each other. A1 and A2
are the areas of the outer and inner solenoids and N1 and N2 are the no.
of turns per unit length of the two solenoids. Write the expressions for the
self inductances of the two solenoids and their mutual inductance. Hence
show that square of the mutual inductance of the two solenoids is less
than the product of the self inductances of the two solenoids. 2
12. Why two equipotential surfaces do not intersect each other? A charge q0
is placed at the centre of a conducting sphere of radius R, what is the
work done in moving a charge q from one point to other diametrically
opposite along the surface of the sphere?
13. In and LCR circuit if frequency of the supply is made 4 time, how should
the values of C and L be changed so that there is no change in the
current in the circuit. 2
OR
The series LCR circuit shown in figure is in resonance state. What is the
voltage across the inductor?
L
(V, v)
C R
14. Arrange the following in ascending order of frequency X-rays, green light,
red light, microwaves, -radiation. Which characteristic of the above waves
is same for all? 2
15. A ray of light travels through an equilateral triangular prism at an angle
of incidence i and emerges out at and angle of emergence e write the


expression for the angle of deviation relating i, e and A (angle of the
prism). If the ray undergoes a minimum deviation of 30° then what is the
refractive index of the material of the prism? 2
16. A radio active material after 10 days reduces to 6.25%. If 40 g sample
is taken then in how many days only 5g of the material is left? 2
17. What is ground wave communication? Why can it not be used for long
distance using high frequency? 2
18. In young’s double slig experiment the intensities of two interfering waves
are I and 4I. What are the maximum and minimum intensities in the
interference pattern? 2
19. An electric dipole of moment p is placed in a uniform electric field E.
Derive the expression for the potential energy of the dipole and show
diagrammatically the orientation of the dipole in the field for which the
potential energy is (i) maximum (ii) minimum. 3
OR
Two capacitors C1 and C2 are charged to potential V1 and V2 respectively
and then connected in parallel. Calculate (i) common potential, (ii) charge
on each capacitor, (iii) electrostatic energy in the system after connection.
20. Produced the truth table for the combination of gates shown in the figure.
3
(B )
Y
AB
A
B
(A )
21. What are the characteristics of the objectives lens of an objective lens of
and astronomical telescope? Derive the expression for the magnifying
power of astronomical telescope in normal adjustment. 3
22. Calculate the de-Broglie wavelength of (i) an electron accelerated by a
potential difference of 100V and (ii) a particle of mass 0.03 kg moving
with a speed of 100ms–1. Hence show that wavelength of the particle is
not relevant. 3

23. In a plane electromagnetic waves progressing towards –x-axis, the electric
field oscillates sinusoidally at a frequency of 2.0 x 1010 Hz and amplitude
48 Vm–1 along –z-axis. Write the expression for the electric field and the
magnetic field. 3
24. The height of a transmission antenna is 600m find the area covered by
the antenna in which the signal from the antenna can be received. 3
25. Draw the circuit diagram to draw the characteristics of common emitter
npn transistor. Also draw the input and output characteristics of the
transistor. 3
26. Muthuswami a resident of Kundakulam was all set to leave everything
and shift to another place in view of the decision of Govt. to start nuclear
thermal power plant at Kundakulam. His granddaughter Prachi, a science
student was really upset on the ignorant decision of her grandfather. She
could finally convince him not to shift, since adequate safety measures
to avoid any nuclear mishap have already been taken by the Govt. before
starting nuclear thermal plants.
(i) What is the value displayed by Prachi in convincing her
grandfather.
(ii) What is the principle behind working of nuclear reactor.
(iii) What are the main component of nuclear reactor.
(iv) Why is heavy water used as moderator.
27. Derive the formula for the equivalent emf and internal resistance of the
parallel combination of the cells of emf E1 and E2 and internal resistance
r1 and r2 respectively. Two cells of emf 1V and 2V and internal resistance
2and 1respectively connected in (i) series (ii) parallel. What should
be the value of external resistance in the circuit so that the current through
the resistance be the same in the two cases? In which case more heat
is generated in the cells?
OR
Two cells of emf 1.5V and 2.0V and internal resistance 1and 2
respectively are connected in parallel so as to send current in the same
direction through an external resistance of 5. (a) Draw the circuit diagram.
(b) Using Kirchhoff’s laws, calculate current through each branch of the
circuit and potential across the 5resistance.

28. Write the principle, working of moving coil galvanometer with the help of
neat labelled diagram. What is the importance of radial field and phospher
bronze used in the construction of moving coil galvanometer?
OR
(i) A beam of alpha particular and of protons, enter a uniform magnetic
field at right angles to the field lines. The particles describe circular
paths. Calculate the ratio of the radii two paths if they have same
(a) velocity, (b) same momentum, (c) same kinetic energy.
(ii) A beam of -particles and of protons of the same velocity u
enters a uniform magnetic field at right angles to the fields lines.
The particles describe circular paths. What is the ratio of the radii
of the two circles?
29. (i) Using the relation for the refraction at a single spherical refracting
surface, derive lens maker’s formula for a thin convex lens.
(ii) The radius of curvature of either face of a convex lens is equal
to its focal length. What is the refractive index of its material?
OR
(i) Deduce the relationship between the object distance, image
distance and the focal length for a mirror. What is the
corresponding formula for a thin lens?
(ii) Two lenses of powers +15D and –5D are in contact with each
other forming a combination lens. (a) What is the focal length of
this combination? (b) An object of size 3cm is placed at 30cm
from this combination of lenses. Calculate the position and size
of the image formed.