Magnetic field strength at the centre of regular pentagon made of a conducting wire of uniform cross section area as shown in figure is:

the position vector of the centre of mass lt to r cm of an asymmetric uniform bar of negligible area of cross - section as shown in figure is :

The magnetic field strength at a point P distant r due to an infinite straight wire carrying a current i is as shown in the figure

the force on current carrying wire placed in uniform magnetic field B as shown in figure is

In the given figure O is the centre of regular pentagon ABCDE . Five forces each of magnitude F_(0) are acted as shown in figure. The resultant force is

A long wire is bent to form a rectangular section and is placed in a region with a uniform magnetic field, as shown in figure. The magnetic field is directed downward and has a magnitude of 2.5 T. The wire carries a 25-A current. Find the net torque on the wire about the z-axis

Assertion : If a current is flowing through a conducting wire of non-uniform cross-section, drift speed and resistance both will increase at a section where cross-sectional area is less. Reason : Current density at such sections is more where cross-sectional area is less.

The magnetic field at the centre of the circular loop as shown in Fig. when a single wire is bent to form a circular loop and also extends to form straight sections is

A current of 10A flows through a semicircular wire of radius 2 cm as shown in figure (a). What is direction and magnitude of the magnetic field at the centre of semicircle? Would your answer change if the wire were bent as shown in figure (b) ?