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
B.
25 µF
Given, C = 5 µF
and V = 12 V
We know that, Q = CV
Q = 5 × 12 = 60 µC
According to the question,
Net capacitance = 20 + 5 = 25 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 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