The magnetic field at the origin due to a current element I `(vec dl )` placed at a positon `(vec r)` is

Show magnetic field lines due to current carrying loop.

Discuss the magnetic field due to a current -carrying circular loop.

State and explain Biot-Savart law for the magnetic field produced by a current element. Give the direction of magnetic field and define the unit of it.

Write formula for magnetic field due to a circular current carrying loop having N turns and R radius at a point on the axis of the loop.

Whose magnetic field resembles the magnetic field of a current - carrying solenoid ?

Write magnetic force equation on current carrying element Ivecl inside magnetic field vecB .

Write the formula of magnetic field due to current carrying loop as magnetic dipole on its axial point and compare it electric field formula for electric dipole.

Do magnetic forces obey Newton's third law. Verify for two current elements vec(dl_(1))=dl(hati) located at the origin and vec(dl_(2))=dl(hatj) located at (0, R, 0). Both carry current I.

An element Delta l= Delta x hat i is placed at origin and carries a current I=10A. IF Delta x=1cm magnetic field at point P is….. T.

In which condition is the magnetic force acting on a given current - carrying rod placed in a magnetic field maximum and in which condition would the magnetic force not act on the rod ? (Assume that the current through the rod and the strength of the magnetic field are not changed).