An electric dipole is in unstable equilibrium in the uniform electric field. The angle between its dipole moment and the electric field is
1. 90
2. 120
3. 0
4. 180
A particle having charge exerts F electrostatic force on charge at rest. If a particle having charge is placed midway between the line joining the two charges then electrostatic force on due to will become/remain
1. 2F
2.
3. F
4. zero
A charge q is to be divided on two small conducting spheres. What should be the value of charges on the spheres so that when placed at a certain distance apart, the repulsive force between them is maximum?
1.
2.
3.
4.
An electric dipole of dipole moment p is placed in an electric field of intensity E such that angle between electric field and dipole moment is . Assuming that the potential energy of the dipole is zero when , the potential energy of the dipole will be
(1) -pE cos
(2) pE(1-cos)
(3) pE(cos-1)
(4) -2pE(cos-1)
The electrostatic field due to a charged conductor just outside the conductor is:
1. | zero and parallel to the surface at every point inside the conductor. |
2. | zero and is normal to the surface at every point inside the conductor. |
3. | parallel to the surface at every point and zero inside the conductor. |
4. | normal to the surface at every point and zero inside the conductor. |
The law, governing the force between electric charges is known as
(1) Ampere's law
(2) Ohm's law
(3) Faraday's law
(4) Coulomb's law
Fg and Fe represents gravitational and electrostatic force respectively between electrons situated at a distance 10 cm. The ratio of Fg/ Fe is of the order of
(1) 1042
(2) 10
(3) 1
(4) 10–43
Four charges are arranged at the corners of a square ABCD, as shown in the adjoining figure. The force on the charge kept at the centre O is:
1. | Zero | 2. | Along the diagonal AC |
3. | Along the diagonal BD | 4. | Perpendicular to side AB |
In the absence of other conductors, the surface charge density
(1) Is proportional to the charge on the conductor and its surface area
(2) Inversely proportional to the charge and directly proportional to the surface area
(3) Directly proportional to the charge and inversely proportional to the surface area
(4) Inversely proportional to the charge and the surface area
Out of gravitational, electromagnetic, Vander Waals, electrostatic and nuclear forces; which two are able to provide an attractive force between two neutrons
(1) Electrostatic and gravitational
(2) Electrostatic and nuclear
(3) Gravitational and nuclear
(4) Some other forces like Vander Waals