A permanent magnet of length l is dropped from a height h through a coil. Consider the emf induced in the coil as the magnet falls through it. Is the induced emf larger at the top, at the bottom, or is it the same at the two locations? why?.

We see that induced emf when the top of the magnet passes out of the loop would be greater than the induced emf when the bottom of the magnet enters into the loop.As the magnet moves down the magnetic flux through the coil increases. According to Lenz's Law, a coil induces a current that opposes the magnetic flux. The direction of the induced emf is determined by the right-hand rule. According to the rule, if the thumb points in the direction of movement of the conductor and the index finger points in the direction of the magnetic field, then the index finger represents the direction of the induced current.When the north end of the magnet moves into the coil EMF is induced in the coil and current begins to flow. The direction of flow will be against the movement of the magnet. Therefore, the direction of the generated current is counterclockwise when viewed from the magnet side. The magnitude of the magnetic field can change over time. The area enclosed by the loop can change over time. The angle between the magnetic field and the loop normal can change over time.Learn more about The coil here:-https://brainly.com/question/27775677#SPJ4