Five equal point charges with Q = 10 nC are located at x = 2, 4, 5, 1 O and 20 m. If ε0 = [10-9 / 36π] F/m, then the potential at the origin (x = O) is
9.9 V
11.1 V
90 V
99 V
The force between two point charges placed in a material medium of dielectric constant εr is F. If the material is removed, then the force between them becomes
εrF
εF
A conductor with a cavity is charged positively and its surface charge density is σ. If E and Vrepresent the electric field and potential, then inside the cavity
and V = 0
E = 0 and V = 0
E = 0 and V = constant
V = 0 and σ = constant
A charge Q is distributed over two concentric hollow spheres of radii a and b , so that the surface charge densities are equal. The potential at the common centre is times.
Q
A 5 µF capacitor is fully charged by a 12 V battery and then disconnected. If it is connected now parallel to an uncharged capacitor, the voltage across it is 3 V. Then, the capacity of the uncharged capacitor is
5 µF
25 µF
50 µF
10 µF
In the given circuit below, the points A, B and C are at same potential. If the potential difference between B and D is 30 V, then the potential difference between A and O is
7.5 V
10 V
15 V
5 V
The energy stored in a capacitor of capacitance C having a charge Q under a potential V is
D.
By energy stored in a charged conductor
Suppose, a conductor of capacity C is charged to a potential V and Q the charge on conductor at a instant.
The potential of the conductor
Now, work done in bringing a small charge dQ at this potential is,
∴ Total work done in charging it from O to Q is,
This work is stored as the potential energy,
The electrostatic force between two point charges is directly proportional to the
sum of the charges
distance between the charges
product of the charges
permittivity of the medium
A point charge of 2 C experiences a constant force of 1000 N when moved between two points separated by a distance of 2 cm in a uniform electric field. The potential difference between the two points is
12 V
8 V
10 V
16 V
An uncharged parallel plate capacitor filled with a dielectric of dielectric constant K is connected to an air filled identical parallel capacitor charged to potential V1. If the common potential is V2, the value of K is