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Electrostatic Potential and Capacitance

Multiple Choice Questions

91.

In this diagram, the PD between A and B is 60 V. The PD across 6 µF capacitor is

4 V
10 V
5 V
20 V

92.

A capacitor of capacitance 10 µF is charged to 10 V. The energy stored in it is

1 µJ
100 µJ
500 µJ
1000 µJ

93.

Which of the following graphs correctly represents the variation of heat energy (U) produced in a metallic conductor in a given time as a function of potential difference (V) across the conductor ?

94.
The concentric spheres of radii R and r have positive charges q₁ and q₂ with equal surface charge densities. What is the electric potential at their common centre ?

$\frac{σ}{ε_{0}} (R + r)$

$\frac{σ}{ε_{0}} (R - r)$

$\frac{σ}{ε_{0}} (\frac{1}{R} + \frac{1}{r})$

$\frac{σ}{ε_{0}} (\frac{1}{R})$

$\frac{σ}{ε_{0}} (R + r)$

Potential at the centre due to sphere with radius R,

$V_{1} = \frac{q_{1}}{4 {πε}_{0} R}$

Potential at the centre due to sphere with radius r,

$V_{2} = \frac{q_{2}}{4 {πε}_{0} r}$

Given, surface charge densities for both spheres

$σ = σ_{R} = σ_{r} i . e, \frac{q_{1}}{4 {πε}_{0} R^{2}} = \frac{q_{2}}{4 {πε}_{0} r^{2}} \Rightarrow q_{1} = \frac{R^{2}}{r^{2}} q_{2}$

Total potential at the centre due to both spheres

$V = V_{1} + V_{2} = \frac{q_{1}}{4 {πε}_{0} R} + \frac{q_{2}}{4 {πε}_{0} r} = \frac{1}{4 {πε}_{0}} (\frac{q_{1}}{R} + \frac{q_{2}}{r}) = \frac{1}{4 {πε}_{0}} (\frac{R^{2}}{r^{2}} \frac{q_{2}}{R}) + \frac{q_{2}}{r} = \frac{q_{2}}{4 {πε}_{0}} (\frac{R + r}{r^{2}}) = \frac{q_{2}}{4 {πr}^{2} ε_{0}} (R + r) = \frac{σ}{ε_{0}} (R + r)$

95.

When an additional charge of 2C is given to a capacitor, energy stored in it is increased by 21%. The original charge of the capacitor is

30 C
40 C
10 C
20 C

96.

When a potential difference of 10³ V is applied between A and B, a charge of 0. 75 mC is value of C is (in μF)

$\frac{1}{2}$
2
2.5
3

97.

See the diagram. Area of each plate is 2.0 m² and d = 2 x 10^-3 m. A charge of 8.85 x 10^-8 C is given to Q. Then the potential of Q becomes

13 V
10 V
6.67 V
8.825 V

98.

What is the electric potential at a distance of 9 cm from 3 nC ?

270 V
3 V
300 V
30 V

99.

A voltmeter reads 4 V when connected to a parallel plate capacitor with air as a dielectric. When a dielectric slab is introduced between plates for the same configuration, voltmeter reads 2 V. What is the dielectric constant of the material ?

100.

Two capacitors of 10 pF and 20 pF are connected to 200 V and 100 V sources respectively. If they are connected by the wire, what is the common potential of the capacitors ?

133.3 V
150 V
300 V
400 V

Previous Year Papers

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Multiple Choice Questions

94. The concentric spheres of radii R and r have positive charges q1 and q2 with equal surface charge densities. What is the electric potential at their common centre ? σε0 R + r σε0 R - r σε0 1R + 1r σε0 1R