A straight horizontal conducting rod of length $0.5 m$ and mass $50 g$ is suspended by two vertical wires at its ends. A current of $5.0 A$ is set up in the rod through the wires. Then the magnetic field set up normal to the conductor in order that the tension in the wires is zero is (ignore the mass of the wire and take $g = 10 m s^{- 2}$ ) :

Question

A straight horizontal conducting rod of length

0.5 m

and mass

50 g

is suspended by two vertical wires at its ends. A current of

5.0 A

is set up in the rod through the wires. Then the magnetic field set up normal to the conductor in order that the tension in the wires is zero is (ignore the mass of the wire and take

g = 10 m s^{- 2}

) :

Toppr Admin · Accepted Answer

-a-xA0-Magnetic field -B- is equal and-xA0-opposite to the weight of the wire i-e-BIl-mgso- B-mg-lI-0-26-xA0-TA horizontal magnetic field of 0-26 T normal to the length of the conductor should be set up in order to get zero tension in the wire- The magnetic field should be such that Fleming-x2019-s left hand rule gives an upward magnetic force-b-If-the direction of the current is reversed- then the force due to-magnetic field and the weight of the wire acts in a vertically-downward direction-Total-tension in the wire - BIl-mg-1-176-xA0-N