A V-shaped conducting wire is moved with a speed of v in a magnetic field as shown in the fig. Magnetic field is perpendicular to the paper, directed inwards, then

The velocity of a charged particle moving in a magnetic field perpendicular to it is

A straight conductor of length 50 cm is moving with a velocity 5 m. s^(-1) in a magnetic field of strength 2T in a direction perpendicular to the field. What is the emf (in V) induced between the two ends of the conductor?

A conducting wire is bent in the form of an angle theta . The wire moves with velocity v along the bisector of angleA'OB' as shown in figure. Find the emf induced between the two ends of the wire if a magnetic field is acting perpendicular to the plane of the paper and directed into it.

A circular wire of radius r and with a constant current I is placed in a magnetic field vecB such that the direction of B is perpendicular to the plane of the wire. The value of the magnetic force on the circular wire—

Define magnitude and direction vecB in a magnetic field.

A conducting loop in the form of a circle is placed in a uniform magnetic field with its plane perpendicular to the direction of the field. An emf will be induced in the loop if

A conducting wire of length l is rotating with angular velocity w in a magnetic field B perpendicular to it. Prove that the induced e.m.f. at the two ends of the conducting wire is e = 1/2 Bwl^2 .

How is the speed of EM waves in vacuum determined by the electric and magnetic fields?

Does any force act on a moving charge in a magnetic field?