If as long cylindrical coductor carreis a steady current parallel to its length, then

The resistivity of cylindrical conductor carrying steady current along its length varies linearly with the distance from the current carrying end as given by rho=rho_(0)(1+(x)/(l)) where l is the length of the conductor and x is the distance from the current entry and. rho_(o) is a positive constant.

Statement 1: A direct uniformly distributed current flows through a solid long metallic cylinder along its length. It produces magnetic field only outside the cylinder. Statement 2: A thin long cylindrical tube carrying uniformly distributed current along its length does not produce a magnetic field inside it. Moreover, a solid cylinder can be supposed to be made up of many thin cylinderical tubes.

A thin but long, hollow, cylindrical tube of radius r carries a current i along its length. Find the magnitude of the magnetic field at a distance r/2 from the surface (a) inside the tube (b) outside the tube.

A long wire in the shape of a cylindrical shell of inner and outer radii R/2 and R respectively carries a steady current I in a direction parallel to its length. This current is uniformly distributed across the area of cross-section of the wire. The magnetic field intensity at a point at a distance (3R)/4 from the axis of the wire is m((mu_(0)I)/(pi R)) .. The value of m is _________.

A square loop, carrying a steady current I, is placed in a horizontal plane near a long staright conductor carryinf a steady current I , at a distance d from the conductor as shown in Fig. The loop wil experience

The figure shows the cross-section of a long cylindrical conductor of radius a carrying a uniformly distributed current i. The magnetic field due to current at P is :

A long straight conducting solid cylindrical wire of radius R carries a steady current / that is uniformly distributed throughout the cross section of the wire. Draw graph of magnetic field B versus r (where r is distance from the axis of the wire)

A square loop, carrying a steady current I, is placed in a horizontal plane near a long straight conductor carrying a steady current I_(1) at a distance d from the donductor as shown in figure. The loop will experience

A long straight wire of circular cross- section carries a current along its length. On the axis inside the wire, it follows that

A long cylinder of uniform cross section and radius R is carrying a current i along its length and current density is uniform cross section and radius r in the cylinder parallel to its length. The axis of the cylinderical cavity is separated by a distance d from the axis of the cylinder. Find the magnetic field at the axis of cylinder.