A bar magnet was pulled away from a hollow coil `A` as shows in Fig As the south pole came out of the coil, the bar magnet next to hollow coil `B` experiened a magnetic force

A bar magnet is pulled along axis of a coil with uniform velocity with south pole entering into the coil. The sketch of Joule's heat with time is represented by

When a magnetic is moved with its N pole away from the coil, then the nearer face of the coil behaves as a

When a magnet is moved with its south pole towards the coil, then the nearer face of the coil behaves as a

Two bar magnets of equal size and strength are placed side by side so tilt the north pole of one magnet is next to the south pole of the other magnet If these magnets are then pushed toward a coil of wire, would you expect an emf to be induced in the coil. Explain your answer

Write the following steps in a sequence to locate the neutral points when south pole of a bar magnet is placed towards geographical north. (A) Draw the magnetic lines of force due to the bar magnet by using a magnetic compass (B) locate the north the south poles of a bar magnet by using a magnetic compass (C) placea bar magnet on the white paper such that the south pole of the bar magnet point towards geographic north (D) Note the points the magnetic field where the magnetic compass does not show any particular direction

A cylindrical bar magnet is kept along the axis of circular coil and near it as shown in Fig. Will there be any induced emf at the terminals of the coil, when magnet is rotated (a) about its own axis (b) about an aixs perpendicular to the length of the magnet ?

A magnet is in form of a bar as shown in the figure. The line joining the center of the bar and the center of the coil (central axis) is perpendicular to the plane of the oil. Which of the following motions of the bar will not induce electric current in the coil?