The magnetic field due to a straight conductor of uniform cross section of radius a and carrying a steady current is represented by

The magnetic field due to a conductor fo unifrom cross section of radius a and carrying a steady current is represented by

Magnetic field at point O due to straight conductor PQ is

The magnetic field in a straight current carrying conductor wire is:

Magnetic lines of force due to a straight conductor carrying current are

Figure shows a long straight wire of a circular cross-section (radius a) carrying steady current l. The current l is uniformly distributed across this cross-section. Calculate the magnetic field in the region r lt a and r gt a

Figure shows a long straight wire of circular crosssection (radius a) carrying steady current I. The current I is uniformly distributed across this crosssection. Calculate the magnetic field in the region r lt a and r gt a .

The charge q flowing in a conductor of uniform cross section, varies with time as q=alphat-bt^(2) . Then, the current

A long straight wire of a circular cross section (radius a ) carrying steady current. Current is uniformly distributed in the wire. Calculate magnetic field inside the region (r lt a) in the wire.

A long straight wire of a circular cross-section of radius 'a' carries a steady current I. The current is uniformly distributed across the cross-section. Apply Ampere's circuital law to calculate the magnetic field at a point at distance 'r' in the region for (i) rlta and (ii) rgta .

A wire of radius R having uniform cross section in which steady current l is flowing. Then