Figure shows, three long straight wires parallel and equally speed with identical currents. Then, the force acting on each wire due to the other is

Consider three long straight parallel wire as shown in figure. Find the force experienced by a 25 cm length of wire C .

Consider three long straight parallel wire as shown in figure. Find the force experienced by a 25 cm length of wire C .

Three long straight wires A , B and C are carrying currents as shown in figure. Then the resultant force on B is directed

Three long straight wires A , B and C are carrying current as shown in figure. Then the resultant force on B is directed

A negative test charge is moving near a long straight wire carrying a current. The force acting on the test charge is parallel to the direction of the current. The motion of the charge is:

A negative test charge is moving mear a long straight wire carrying a current. The force acting on the test charge is parallel to the direction of the current. The motion of the charge is:

A long straight wire carries a current of 10.05 A to the right. A circular loop of wire lies below the long straight wire, as shown in the following figure. The current in the long straight wire decreases to zero in a time of 4.652 s. What direction does the induced current flow around the circular loop of wire?

The figure shows two identical long straight metal wires, A and B placed parallel to z-axis the cross sectional radius of each wire is R and the separation of the two wires is Dgt gtR . The electric potential at a perpendicular distance rgtR from a long straight wire due to that wire is given by V=-kln((r)/(R)) where k is a positive constant. the wires carry charges +Q and -Q per unit length respectively. Then Q. As D gt gt R , the electric field due to a long straight wire has cylindrical symmetry. The charge per unit length of the wire is

The figure shows two identical long straight metal wires, A and B placed parallel to z-axis the cross sectional radius of each wire is R and the separation of the two wires is Dgt gtR . The electric potential at a perpendicular distance rgtR from a long straight wire due to that wire is given by V=-kln((r)/(R)) where k is a positive constant. the wires carry charges +Q and -Q per unit length respectively. Then Q. As D gt gt R , the electric field due to a long straight wire has cylindrical symmetry. The charge per unit length of the wire is

Three long, straight and parallel wires are arranged as shown in Fig. The forces experienced by 10 cm length of wire Q is