Find the magentic inducrtion at the centre of a recentagular wire frame whose diagonal is equal to `varphi = 30^(@)`, the current flowing in the frame equlas `I = 5.0 A`.

Find the magnetic induction at the centre of a rectangular frame of wire whose diagonal is equal to d=16 cm and the angle between the diagonals is equal to phi=30^(@) , the current flowing in the frame equal to I=5.0A .

In the frame work of wires shown in figure, a current I ampere is flowing. Find the magnetic field at O.

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 .

In an inertial reference frame K there is only a unifrom electric field E = 8 kV//m in strength. Find the modulus and direction (a) of the vector E' (b) of the vector B' in the interial refrernce frame K' moving with a constant velocity v relative to the frame K at an angle alpha = 45^(@) to the vector E . The velocity of the frame K' is equla to a beta = 0.60 fraction of the velocity of light.

(a) Find magnetic field inside a long solenoid, carrying current (1//pi) A and having number of turns per unit length 10 . Also calculate magnetic field at ends. (b) A long solenoid is fabricated by closely winding a wire of diameter 10 mm over a cylinderical non-magnetic frame so that the successive turns nearly touch each other. Find magnetic field at the centre and ends of solenoid if it carriers a current (4//pi) A ? (c) A single-layer coil (solenoid) has length l and cross-section radius R . The number of turns per unit length is equal to n . Find the magnetic induction at the centre of the coil when a current i flows through it. (d) A solenoid of length 0.4 m and diameter 0.6 m consists of a single layer of 1000 turns of the fine wire carrying a current of 5 mA . Calculate the magnetic field on the axis at the middle and at the ends of the solenoid.

A direct current of density j flows along a round unifrom staright wire with cross-section radius R . Find the magnectic induction vector of this current at the point whose position relative to the axis of the wire is defined by a radius vector r . The magentic permeabilility is assumed to be equla to unity thoughhout all the space.

A current I = 5.0 A A flows along a thin wire shaped as shwon in Fig. The radius of a curved part of the wire is equal to R = 120 mm , the angle 2varphi = 90^(@) . Find the magentic induction of the field at the point O .