Class 12 Important Questions for Physics – Electric Charges and Fields
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.
Question from very important topics are covered by NCERT Exemplar Class 12. You also get idea about the type of questions and method to answer in your class 12th examination.
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 Electric Charges and Fields for Class 12 Physics subject.
Physics Important Questions Class 12 are given below.
Multiple Choice Questions (MCQ I)
 In Fig.1.1, two positive charges q_{2} and q_{3} fixed along the y axis, exert a net electric force in the + x direction on a charge q_{1} fixed along the x axis. If a positive charge Q is added at (x, 0), the force on q_{1}.
 (a) shall increase along the positive xaxis.
 (b) shall decrease along the positive xaxis.
 (c) shall point along the negative xaxis.
 (d) shall increase but the direction changes because of the intersection of Q with q_{2} and q_{3}.
 A point positive charge is brought near an isolated conducting sphere (Fig. 1.2). The electric field is best given by
 (a) Fig (i)
 (b) Fig (ii)
 (c) Fig (iii)
 (d) Fig (iv)
 The Electric flux through the surface
 (a) in Fig.1.3 (iv) is the largest.
 (b) in Fig. 1.3 (iii) is the least.
 (c) in Fig. 1.3 (ii) is same as Fig. 1.3 (iii) but is smaller than Fig. 1.3 (iv)
 (d) is the same for all the figures.
 Five charges q_{1}, q_{2}, q_{3}, q_{4}, and q_{5} are fixed at their positions as shown in Fig. 1.4. S is a Gaussian surface. The Gauss’s law is given by
Which of the following statements is correct? (a) E on the LHS of the above equation will have a contribution from q_{1}, q_{5} and q_{3} while q on the RHS will have a contribution from q_{2} and q_{4} only.
 (b) E on the LHS of the above equation will have a contribution from all charges while q on the RHS will have a contribution rom q_{2} and q_{4} only.
 (c) E on the LHS of the above equation will have a contribution from all charges while q on the RHS will have a contribution from q_{1} , q_{3} and q_{5} only.
 (d) Both E on the LHS and q on the RHS will have contributions from q_{2} and q_{4} only.
 Figure 1.5 shows electric field lines in which an electric dipole p is placed as shown. Which of the following statements is correct?
 (a) The dipole will not experience any force.
 (b) The dipole will experience a force towards right.
 (c) The dipole will experience a force towards left.
 (d) The dipole will experience a force upwards.
 A point charge +q, is placed at a distance d from an isolated conducting plane. The field at a point P on the other side of the plane is
 (a) directed perpendicular to the plane and away from the plane.
 (b) directed perpendicular to the plane but towards the plane.
 (c) directed radially away from the point charge.
 (d) directed radially towards the point charge.
 A hemisphere is uniformely charged positively. The electric field at a point on a diameter away from the centre is directed
 (a) perpendicular to the diameter
 (b) parallel to the diameter
 (c) at an angle tilted towards the diameter
 (d) at an angle tilted away from the diameter.
Multiple Choice Questions (MCQ II)

 (a) the electric field inside the surface and on it is zero.
 (b) the electric field inside the surface is necessarily uniform.
 (c) the number of flux lines entering the surface must be equal to the number of flux lines leaving it.
 (d) all charges must necessarily be outside the surface.
 The Electric field at a point is
 (a) always continuous.
 (b) continuous if there is no charge at that point.
 (c) discontinuous only if there is a negative charge at that point.
 (d) discontinuous if there is a charge at that point.
 If there were only one type of charge in the universe, then
 Consider a region inside which there are various types of charges but the total charge is zero. At points outside the region
 (a) the electric field is necessarily zero.
 (b) the electric field is due to the dipole moment of the charge distribution only.
 (c) the dominant electric field is ∝ 1 / r^{3} , for large r, where r is the distance from a origin in this region.
 (d) the work done to move a charged particle along a closed path, away from the region, will be zero.
 Refer to the arrangement of charges in Fig. 1.6 and a Gaussian surface of radius R with Q at the centre. Then
 (a) total flux through the surface of the sphere is – Q / ε_{o}
 (b) field on the surface of the sphere is – Q / 4 πε_{o} R^{2}.
 (c) flux through the surface of sphere due to 5Q is zero.
 (d) field on the surface of sphere due to –2Q is same everywhere.
 A positive charge Q is uniformly distributed along a circular ring of radius R. A small test charge q is placed at the centre of the ring (Fig. 1.7). Then
 (a) If q > 0 and is displaced away from the centre in the plane of the ring, it will be pushed back towards the centre.
 (b) If q < 0 and is displaced away from the centre in the plane of the ring, it will never return to the centre and will continue moving till it hits the ring.
 (c) If q < 0, it will perform SHM for small displacement along the axis.
 (d) q at the centre of the ring is in an unstable equilibrium within the plane of the ring for q > 0.
Very Short Answer Type Questions
 An arbitrary surface encloses a dipole. What is the electric flux through this surface?
 A metallic spherical shell has an inner radius R_{1} and outer radius R_{2} . A charge Q is placed at the centre of the spherical cavity. What will be surface charge density on (i) the inner surface, and (ii) the outer surface?
 The dimensions of an atom are of the order of an Angstrom. Thus there must be large electric fields between the protons and electrons. Why, then is the electrostatic field inside a conductor zero?
 If the total charge enclosed by a surface is zero, does it imply that the elecric field everywhere on the surface is zero? Conversely, if the electric field everywhere on a surface is zero, does it imply that net charge inside is zero.
 Sketch the electric field lines for a uniformly charged hollow cylinder shown in Fig 1.8.
 What will be the total flux through the faces of the cube (Fig. 1.9) with side of length a if a charge q is placed at
 (a) A: a corner of the cube.
 (b) B: midpoint of an edge of the cube.
 (c) C: centre of a face of the cube.
 (d) D: midpoint of B and C.
Short Answer Type Questions
 A paisa coin is made up of AlMg alloy and weighs 0.75g. It has a square shape and its diagonal measures 17 mm. It is electrically neutral and contains equal amounts of positive and negative charges.
Treating the paisa coins made up of only Al, find the magnitude of equal number of positive and negative charges. What conclusion do you draw from this magnitude?  Consider a coin of Example 1.20. It is electrically neutral and contains equal amounts of positive and negative charge of magnitude 34.8 kC. Suppose that these equal charges were concentrated in two point charges seperated by (i) 1 cm (~ 1 / 2 diagonal of the one paisa coin ), (ii) 100 m (~ length of a long building), and (iii) 10^{6} m (radius of the earth). Find the force on each such point charge in each of the three cases. What do you conclude from these results?
 Fig. 1.10 represents a crystal unit of cesium chloride, CsCl. The cesium atoms, represented by open circles are situated at the corners of a cube of side 0.40nm, whereas a Cl atom is situated at the centre of the cube. The Cs atoms are deficient in one electron while the Cl atom carries an excess electron.
 (i) What is the net electric field on the Cl atom due to eight Cs atoms?
 (ii) Suppose that the Cs atom at the corner A is missing. What is the net force now on the Cl atom due to seven remaining Cs
atoms?
 Two charges q and –3q are placed fixed on xaxis separated by distance ‘d’. Where should a third charge 2q be placed such that it will not experience any force?
 Fig. 1.11 shows the electric field lines around three point charges A, B and C.
 (a) Which charges are positive?
 (b) Which charge has the largest magnitude? Why?
 (c) In which region or regions of the picture could the electric field be zero? Justify your answer.
(i) near A, (ii) near B, (iii) near C, (iv) nowhere.
 Five charges, q each are placed at the corners of a regular pentagon of side ‘a’ (Fig. 1.12).
 (a) (i) What will be the electric field at O, the centre of the pentagon?
 (ii) What will be the electric field at O if the charge from one of the corners (say A) is removed?
 (iii) What will be the electric field at O if the charge q at A is replaced by –q?
 (b) How would your answer to (a) be affected if pentagon is replaced by nsided regular polygon with charge q at each of its corners?
Long Answer Type Questions
 In 1959 Lyttleton and Bondi suggested that the expansion of the Universe could be explained if matter carried a net charge. Suppose that the Universe is made up of hydrogen atoms with a number density N, which is maintained a constant. Let the charge on the proton be: e_{p} = – (1 + y)e where e is the electronic charge.
 (a) Find the critical value of y such that expansion may start.
 (b) Show that the velocity of expansion is proportional to the distance from the centre.
 Consider a sphere of radius R with charge density distributed as
ρ ( r ) = kr for r ≤ R
= 0 for r > R . (a) Find the electric field at all points r.
 (b) Suppose the total charge on the sphere is 2e where e is the electron charge. Where can two protons be embedded such that the force on each of them is zero. Assume that the introduction of the proton does not alter the negative charge distribution.
 Two fixed, identical conducting plates ( α & β ) , each of surface area S are charged to –Q and q, respectively, where Q > q > 0. A third identical plate ( γ ), free to move is located on the other side of the plate with charge q at a distance d (Fig 1.13). The third plate is released and collides with the plate β . Assume the collision is elastic and the time of collision is sufficient to redistribute charge g amongst β & γ .
 (a) Find the electric field acting on the plate γ before collision.
 (b) Find the charges on β and γ after the collision.
 (c) Find the velocity of the plate γ after the collision and at a distance d from the plate β.
 There is another useful system of units, besides the SI/mks A system, called the cgs (centimetergramsecond) system. In this system Coloumb’s law is given by
where the distance r is measured in cm (= 10^{2} m), F in dynes (=10^{5} N) and the charges in electrostatic units (es units), where 1es unit of charge = 1 / 3 * 10^{9} C
The number [3] actually arises from the speed of light in vaccum which is now taken to be exactly given by c = 2.99792458 × 10^{8} m/s. An approximate value of c then is c = [3] × 10^{8} m/s. (i) Show that the coloumb law in cgs units yields
1 esu of charge = 1 (dyne) 1/2 cm.
Obtain the dimensions of units of charge in terms of mass M, length L and time T. Show that it is given in terms of fractional powers of M and L.  (ii) Write 1 esu of charge = x C, where x is a dimensionless number. Show that this gives
 (i) Show that the coloumb law in cgs units yields
 Two charges –q each are fixed separated by distance 2d. A third charge q of mass m placed at the midpoint is displaced slightly by x (x<<d) perpendicular to the line joining the two fixed charged as shown in Fig. 1.14. Show that q will perform simple harmonic – q oscillation of time period.
 Total charge –Q is uniformly spread along length of a ring of radius R. A small test charge +q of mass m is kept at the centre of the ring and is given a gentle push along the axis of the ring.
 (a) Show that the particle executes a simple harmonic oscillation.
 (b) Obtain its time period.
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Answers to Multiple Choice Questions
(MCQ I)  (MCQ II)  

Q.No.  Answer  Q.No.  Answer 
1  (a)  1  (c), (d) 
2  (a)  2  (b), (d) 
3  (d)  3  (b), (d) 
4  (b)  4  (c), (d) 
5  (c)  5  (a), (c). 
6  (a)  6  (a), (b), (c) and (d). 
7  (a) 
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