Two wires carrying currents `I_(1)andI_(2)` lie, one slightly above the other, in a horizontal plane as shown in figure. The region of vertically upward strongest magnetic field is

Two insulating infinite long conductors carrying currents I_1(=2A) and I_2(=4A) lie mutually perpendicular to each other in the same plane, as shown in figure. Find the magnetic field at the point P(a,b), where a=4cm , , b=3cm .

A wire of infinite length bent as shown in figure carries current l. What is the magnetic field at the point P ?

A current carrying wire is bent in the L shapes as shown in figure. The length of both arms extend to infinity. Then, the magnetic field at O is-

A rigid square loop of side 'a’ and carrying current I_(2) is lying on a horizontal surface near a long current I_(1) carrying wire in the same plane as shown in figure. The net force on the loop due to the wire will be:

Two infinitely long wires each carrying current I along the same direction are made into the geometry as shown in the figure. The magnetic field at the point P is

A rectangular loop carrying a current i_(2) situated near a long straight wire carrying a steady current i_(1) . The wire is parallel to one of the sides of the loop and is in the plane of the loop as shown in the figure. Then the current loop will

Two mutually perpendicular conductors carrying currents I_(1) and I_(2) lie in one plane. Locus of the point at which the magnetic induction is zero, is a:

A conducting wire carrying current I is shown in the figure. The magnitude of magnetic field at the point P will be

A long wire carrying current 'I' is bent into the shape as shown in the figure. The net magnetic field intensity at the centre 'O' is