Do magnetic forces obey Newton's third law. Verify for two current elements `dvecl_1=dlhati` located at the origin and `dvecl_2=dlhatj` located at (0, R, 0). Both carry current I.

Two infinitely long straight wires lie in the xy-plane along the lines x =pm R . The wire located at x =+R carries a constant current I_(1) and the wire located at x = -R carries a constant current I_(2) . A circular loop of radius R is suspended with its centre at (0,0, sqrt(3)R) and in a plane parallel to the xy-plane. This loop carries a constant current ? in the clockwise direction as seen from above the loop. The current in the wire is taken to be positive if it is in the +hat J direction. Which of the following statements regarding the magnetic field vec B is (are) true?

Two parallel wires in the plane of the paper are distance X_0 apart. A point charge is moving with speed u between the wires in the same plane at a distance X_1 from one of the wires. When the wires carry current of magnitude I in the same direction, the radius of curvature of the path of the point charge is R_1 In contrast, if the currents I in the two wires have directions opposite to each other, the radius of curvature of the path is R_2 . If (X_0)/(X_1)=3 , the value of (R_1)/(R_2) is

A rigid wire consists of a semicircular portion of radius R and two straight sections the wire is partially immersed in a perpendicualr magnetic field B as shown in the figure. Find the magnetic force on the wire if it carries a current i .

Determine the magnetic field at point P located a distance x from the corner of an infinitely long 2. Wire bent at right angle as shown in figure. The wire carries a steady current i.

The magnetic field at a distance r from a long wire carryimg current I is 0.4 T. The magnetic field at a distance 2r is

Figure. Shows two long wires carrying equal currents I_1 and I_2 flowing in opposite directions. Which of the arrows labeled A to D correctely represents the direction of the magnetic field due to the wires at a point located at an equal distance d from each wire?

A: When currents vary with time, Newton's third law is valid only if momentum carried by the electromagnetic field is taken into account. R: Magnetic field lines always form closed loops.

Wire 1 in Fig. is oriented along the y-axis and carries a steady current I_1 . A rectangular loop located to right of the wire and in the x-y plane carries a current I_2 . Find the magnetic force exerted by wire (1) on the top of wire (2) of length b in the loop, labeled "wire (2)" in the figure.

Figure shows a long and thin strip of width b which carries a current I . Find magnetic induction due to the current in strip at point P located at a distance r from the strip in the plane of strip as shown in figure-4.35.

A uniform magnetic field vecB of magnitude 0.2 T exists in the plane of paper from left to right. A conducting wire, bent in an irregular manner, and carrying a current i , equal to 5A is placed in the plane of paper as shown in figure. Force acting on the wire (in Newton) is