Two coaxial solenoids of different radii carry current I in the same direction. Let `vecF_(1)` be the magnetic force on the inner solenoid due to the outer one and `vecF_(2)` be the magnetic force on the outer solenoid due to the inner one. Then : `vecF_(1)` is radially inwards and `vecF_(2)` is radially outward

Two coaxial solenoids of different radius carry current I in the same direction. vec(F_1) be the magnetic force on the inner solenoid due to the outer one and vec(F_2) be the magnetic force on the outer solenide due to the inner one. Then

The magnetic force vecF on a current carrying conductor of length I in an external magnetic field vecB is given by

The correct curve between the magnetic induction (B) along the axis of a along solenoid due to current flow i in it and distance x from one end is -

When two parallel wires carrying current l and 2l in same direction are placed at a distance d apart, the ratio of force per unit length acting upon the wire due to other is

Two coaxil solenoids 1 and 2 of the same length are set so that one is inside the other. The number of turns per unit length are n_(1) and n_(2) . The current i_(1) and i_(2) are flowing in opposite directions. The magnetic field inside the inner coil is zero. This is possible when

A solenoid of length 50cm , having 100 turns carries a current of 2*5A . Find the magnetic field, (a) in the interior of the solenoid, (b) at one end of the solenoid. Given mu_0=4pixx10^-7WbA^-1m^-1 .

A tightly- wound solenoid of radius a and length l has n turns per unit length. It carries an electric current i. Consider a length dx of the solenoid at a distance x from one end. This contains n dx turns and may be approximated as a circular current I n dx. (a) Write the magnetic field at the center of the solenoid due to this circular current. Integrate this expression under proper limits to find the magnetic field at the center of the solenoid. (b) Verify that if lgtgta , the field tends to (B=(mu_0ni) and if agtgt1 , the field tends to B= ((mu_0)nil/2a) . Interpret these results.

Two short magnet A and B of magnetic dipole mement M_(1) and M_(2) respectively are placed as shown.The axis of A and the equatorial line of B are the same.Find the magnetic force on one magnet due to other.

There are two long co-axial solenoids of same length l. The inner and other coils have redii r_(1) and r_(2) and number of turns per unti length n_(1) and n_(2) respectively .The reatio of mutual inductance to the self - inductance of the inner- coil is :

Two parallel long wire carry currents i_(1) and i_(2) with i_(1) gt i_(2) . When the currents are in the same direction , the magnetic field midway between the wires is 10 muT . When the direction of i_(2) is reversed, it becomes 40 muT . The ratio i_(1)//i_(2) is