A current I flows along a thin wire shaped as shown in figure. The radius of the curved part of the wire is r. The field at the centre O of the coil is:

Find the magnetic induction of the field at the point O at a loop with current I , whose shape is illustrated in figure (a)In figure a the radii a and b , as well as the angle varphi are known (b)In figure b ,the raidus a and the side b are known. (c)A current I=5.0 A flows along a thin wire shaped as shown in figure.The radius of a curved part of the wire is equal to R=120 mm ,the angle 2varphi=90^(@) .Find the magnetic induction of the field at the point O .

A current I is flowing in a conductor shaped as shown in figure. The radius of the curved part is r and length of straight portion is very large. Find the magnetic field induction at the centre O.

Calculate magnetic induction at point O if the wire carrying a current I has the shape shown in Fig. (The radius of the curved part of the wire is equal to R and linear parts of the wire are very long.)

Calculate magnetic induction at point O if the wire carrying a current I has the shape shown in Fig. (The radius of the curved part of the wire is equal to R and linear parts of the wire are very long.)

A current l flows through a closed loop as shown in figure .The magnetic field at the centre O is

A current i is flowing in a conductor PQRST shaped as shown in the figure. The radius of curved part QRS is r and length of straight portions PQ and ST is very large. The magnetic field at the centre O of the curved part is -

A long wire bent as shown in fig. carries current I. If the radius of the semicircular portion is a, the magnetic field at centre C is

A current I is flowing through the loop , as shown in the figure . The magnetic field at centre O is

The wire loop shown in figure carries a current as shown. The magnetic field at the centre O is ,

A current I flows through an infinitly long wire having infinite brands as shown. The radius of the first curved section is a and the radii of the successive curved portions each increases by a factor eta . Find magnetic field at O.