Magnetic lines of force in external space and inside the magnetic dipole respectively go from

Magnetic lines of force are

Explain the terms: magnetic dipole

Two lines of force due to a bar magnet

The magnetic length of a dipole is

Assertion: Basic difference between an electric line and magnetic line of force is that former is discontinuous and the latter is continuous or endless. Reason: No electric lines of force exist inside a charged body but magnetic lines do exist inside a magnet.

Magnetic flux is defined as number of magnetic lines of forces passing through a given area, such that angle between the lines of forces and surface is

Choose the corect options. Magnetic flux is defined as number of magnetic lines of forces passing through a given area such that angle between the lines of forces and surface is

12. Intext Question. (Textbook page no. 54) The magnetic lines of force inside the solenoid are parallel to each other. What does this mean?

In radial magnetic field lines of force are

Draw the magnetic force lines of bar magnet?