Electrostatic Potential and Capacitance

Q 1.

Q 2.

A parallel plate capacitor is charged by a battery. After sometime, the battery is disconnected and a dielectric slab with its thickness equal to the plate separation is inserted between the plates. How will
(i)the capacitances of the capacitor,
(ii)potential difference between the plates and
(iii)the energy stored in the capacitors be affected? Justify your answer in each case.[Delhi 2010]

Q 3.

A wire AB is carrying a steady current of 12 A and is lying on the table. Another wire CD carrying 5 A is held directly above AB at a height of 1mm. Find the mass per unit length of the wire CD, so that it remains suspended at its position when left free. Give the direction of the current flowing in CD with respect to that in  [Take the value of g =10 ms^-2][All India 2013]

Q 4.

Two parallel plate capacitors of capacitances C_x and C₂ such that C_x =2C₂ are connected across a battery of V volt as shown in the figure Initially, the key (k) is kept closed to fully charge the capacitors.The key is now thrown open and a dielectric slab of dielectric constant K is inserted in the two capacitors to completely fill the gap between the plates. Find the ratio of (i) the net capacitance and (ii) the energies stored in the combination before and after the introduction of the dielectric slab.[Delhi 2014 C]

Q 5.

Prove that a closed equipptential surface with no charge within itself must enclose an equipotential volume.

Q 6.

Two point charges of magnitude +q and -q are placed at (-d/2, 0, 0) and (d/2, 2, 0), respectively. Find the equation of the equipotential surface where the potential is zero.

Q 7.

Q 8.

Q 9.

Q 10.

Distinguish between a dielectric and  a conductor.  [Delhi 2012]

Q 11.

(i) How is the electric field due to a  charged parallel plate capacitor affected when a dielectric slab is inserted between the plates fully occupying the intervening region?
(ii) A slab of material of dielectric constant K has the same area as the plates of a parallel plate  capacitor but has thickness 1/2 d,
where d is the separation between the plates. Find the expression for the capacitance when the slab is inserted between the plates. [Foreign 2010]

Q 12.

A capacitor is made of two circular plates of radius R each, separated by a , distance d << R. The capacitor is connected to a constant voltage. A thin
conducting disc of radius r << R and thickness t << r is placed at the centre of the bottom plate. Find the minimum voltage required to lift the disc if the mass of the disc is m.

Q 13.

Two metal spheres, one of radius R and the other of radius 2R, both have same surface charge density σ. They are brought in contact and separated. What will be the new surface charge densities on them?

Q 14.

Graph the electric potential (V) with distance r due to a point charge Q.[Delhi 2012]

Q 15.

Two point charges 40, O are  separated by lm in air. At what point on the line joining the charges, is the electric field intensity zero? Also calculate the electrostatic potential energy of the system of charges taking the value of charge, O = 2 X 10~⁷ C. [All India 2008]

Q 16.

A capacitor has some dielectric between its plates and the capacitor is connected to a DC source. The battery is now disconnected and then the dielectric is removed. State whether the capacitance, the energy stored in it, electric field, charge stored and the voltage will increase, decrease or remain constant.

Q 17.

Find the charge on the capacitor as Shown in the circuit. [Foreign 2014]

Q 18.

In the figure given below X, Y represent parallel plate capacitors having the same area of plates and the same distance of separation between them. What is the relation between the energies stored in the capacitors?

Q 19.

Why there is no work done in  moving a charge from one point to another on an equipotential surface?           [Foreign 2012]

Q 20.

A point charge Q is placed at point O  as shown in the figure. Is the potential  difference  (V_A             – V_B)
positive, negative or zero if Q is  (i)positive (ii) negative

Q 21.

Two parallel plate capacitors of capacitances Qand C₂ such that q =C₂ /2 are connected across a battery of V volts as shown in the figure. Initially, the key (k) is kept closed to fully charge the capacitors.The key is now thrown open and a dielectric slab of dielectric constant K is inserted in the two capacitors to completely fill the gap between the plates. Find the  ratio of (i) the net capacitance and (ii) the energies stored in the combination before and after the introduction of the dielectric slab.[Delhi 2014 C]

Q 22.

Find out the expression for the  potential energy of a system of three charges q₁, q₂ and g₃ located at q , r₂ and r₃ with respect to the common origin O. [Delhi 2010 c]

Q 23.

Do free electrons travel to region of higher potential or lower potential?

Q 24.

What is the electric potential due to an electric dipole at an equatorial point?[All India 2009]

Q 25.

Q 26.

Two charges q₁ and q₂ are placed at (0, 0, d) and (0, 0, -d) respectively. Find
the locus of points where the potential is zero.

Q 27.

Q 28.

Figure shows a  sheet of aluminium  foil of negligible  thickness placed between  the plates of a capacitor. How will its capacitance be affected if
(i)the foil is electrically insulated?
(ii)the foil is connected to the upper plate with a conducting wire?[Foreign 2011]

Q 29.

(i) Derive the expression for the  capacitance of a parallel plate capacitor having plate area A and plate separation d.
(ii) Two charged spherical conductors of radii and 1^ when connected by a conducting plate respectively. Find the ratio of their surface charge densities in terms of their radii. [Delhi 2014]

Q 30.

Why is the potential inside a hollow spherical charged conductor is constant and has the same value as on its surface?[Foreign 2012]

Q 31.

Name the physical quantity whose SI  unit is J/C. Is it a scalar or a vector quantity? [All India 2010]

Q 32.

What is the work done in moving a  test charge q through a distance of 1 cm along the equatorial axis of an electric dipole?   [All India 2009]

Q 33.

The potential due to a dipole at any point on its axial line is zero.  [All India 2009 C]

Q 34.

What is the electric potential due to an electric dipole at an equatorial point?[All India 2009]

Q 35.

Q 36.

In a region of constant potential
(a) the electric field is uniform
(b) the electric field is zero
(c) there can be no charge inside the region
(d) the electric field shall necessarily change if a charge is placed outside the region

Q 37.

Q 38.

Q 39.

A hollow metal sphere of radius  5 cm is charged such that potential on its surface is 10 V. What is the potential at the centre of the sphere?           [All India 2011]

Q 40.

(i)Write two characteristics of  equipotential surfaces.
(ii) Draw the equipotential surfaces due to an electric dipole.  [All India 2009 C]

Q 41.

Figure shows some equipotential lines distributed in space. A charged object is moved from point A to point B.
(a) The work done in Fig. (i) is the greatest.
(b) The work done in Fig. (ii) is least.
(c) The work done is the same in Fig. (i), Fig.(ii) and Fig. (iii).
(d) The work done in Fig. (iii) is greater than Fig. (ii) but equal to that in

Q 42.

In the circuit shown in figure initially key K₁  
is closed and key K₂ is open. Then K₁ is opened and K₂ is closed (order is important).
[Take Q’₁ and Q’₂ as charges on C₁ and C₂ and V₁ and V₂ as voltage respectively.]
Then, E
(a) charge on C, gets redistributed such that V₁ = V₂
(b) charge on C₁ gets redistributed such that Q’₁ = Q’₂
(c) charge on C₁ gets redistributed such that C₁V₁ + C₂V₂ = C₁E
(d) charge on C₁ gets redistributed such that Q’₁ + Q’₂=Q

Q 43.

Consider two conducting spheres of radii R₁ and R₂ with R₁ > R₂. If the two are at the same potential, the larger sphere has more charge than the smaller sphere. State whether the charge density of the smaller sphere is more or less than that of the larger one.

Q 44.

A test charge q is made to move in the electric field of a point charge Q along two different closed paths [figure first path has sections along and perpendicular to lines of electric field]. Second path is a rectangular loop of the same area as the first loop. How does the work done compare in the two cases?

Q 45.

(a) In a quark model of elementary particles, a neutron is made of one up quarks [charge (2/3)e] and two down quarks [charges (-l/3)e]. Assume that they have a triangle configuration with side length of the order of 10^-15  m. Calculate electrostatic potential energy of neutron and compare it with its mass 939 MeV.
(b) Repeat above exercise for a proton which is made of two up and one down quark.

Q 46.

In the circuit shown in figure, initially K₁ is closed and K₂ is open. What are the charges on each capacitors?
Then K₁ was opened and K₂ was closed (order is important), what will be the charge on each capacitor now? [C = 1 μF]

Q 47.

Find the charge on the capacitor as Shown in the circuit. [Foreign 2014]

Q 48.

A capacitor of 200 pF is charged by a 300 V battery. The battery is then disconnected and the charged capacitor is connected to another uncharged capacitor of 100 pF. Calculate the difference between the final energy stored in the combined system and the initial energy stored in the single capacitor.[Foreign 2012]

Q 49.

A parallel plate capacitor, each with plate area A and separation d is charged to a potential difference V. The battery used to charge it remains connected. A dielectric slab of thickness d and dielectric constant K is now placed between the plates. What change if any will take place in
(i)charge on plates?
(ii)electric field intensity between the plates?
(iii)capacitance of the capacitor? Justify your answer in each case.[Delhi 2010]

Q 50.

Find the ratio of the potential differences that must be applied across the parallel and the series combination of two identical capacitors so that the energy stored in the two cases becomes the same.
[Foreign 2010]