Shows a rod PQ of length 20.0 cm and mas...

Shows a rod PQ of length 20.0 cm and mass 200g suspended through a fixed point O by two threads of lengths 20.0 cm each. A magnetic field of strenght 0.500 T exists in the vicinity of the wire PQ as shown in the figure. The exists in the vicinity of the wire PQ as shown in the figure. The wires conecting PQ with the battery are loose and exert no force on PQ.(a) find the tension in the threads when the switch S is open. (b) A current of 2.0 A is established when the switch S is closed. Find the tension in the threads now.

Similar Questions

Explore conceptually related problems

A conducting loop is held above a current carrying wire PQ as shown in the figure. Depict the direction of the current induced in the loop when the current in the wire PQ is constantly increasing.

A magnetic field of 0.25 T is acting in a region from west to east. A wire PQ is bent and is placed in the magnetic field as shown in figure. If a current of 5 A flows through the wire, then calculate the magnitude of magnetic force acting on the wire.

In the figure shown the magnetic field on the left on PQ is zero and on the right of PQ it is uniform.Find the time spent in the magnetic field.

In the figure shown the magnetic field on the left on PQ is zero and on the right of PQ it is uniform. Find the time spent in the magnetic field.

A conductor loop is held above a current carrying wire 'PQ' as shown in figure. Depict the direction of the current induced in the loop when the current in the wire PQ is constanly increasing.

An iron rod of mass 50 g and length 50 cm is suspended by master wires as shown in the figure. Calculate the magnitude and direction of magnetic field to be set in the region such that the tension is the wires is zero. The current in the rod is 4 A.

In the figure AB = PQ, PR = 2 cm Find the length of PQ, AB

In the figure shown the magnetic field on the left on ‘PQ’ is zero and on the right of ‘PQ’ it is uniform. Find the time spent in the magnetic field

A wire PQR carrying a current l is bent as shown in the figure. It is placed in a uniform magnetic field B. What is the ratio of magnitude of the force on PQ to that on QR ?

Similar Questions

Recommended Questions