A 41.0-cm wire is moving to the right at a speed of 6.90 m/s across two parallel

Question

A 41.0-cm wire is moving to the right at a speed of 6.90 m/s across two parallel wire rails that are connected on the left side, as shown in the figure. The whole apparatus is immersed in a uniform magnetic field which has a magnitude of 0.810 T and is directed into the screen. What is the emf induced in the wire?

The induced emf causes a current to flow in the circuit formed by the moving wire and the rails. In what direction does the current flow around the circuit ?

A 410-cm wire is moving to the right at a speed of 6.90 m/s across two parallel wire rails that are connected on the left side, as shown in the figure. The whole apparatus is immersed in a uniform magnetic field which has a magnitude of 0.810 T and is directed into the screen × 0.810 T What is the emf induced in the wire? 6.90 m/s 41.0 cm Number The induced emf causes a current to flow in the circuit formed by the moving wire and the rails. In what direction does the current flow around the circuit ? O clockwise counter-clockwise If the moving wire and the rails have a combined total resistance of 1.15 ' what applied force would be required to keep the wire moving at the given velocity? Assume that there is no friction between the moving wire and the rails Number Tools

Explanation / Answer

We know that the change in flux produces EMF

EMF = B L *V

Where B is the magnetic field, l is the lenght and V is the velocity

EMF = 0.81 * 0.41 *6.9 = 2.3 V

Current in the circuit will be

I = V/R = 2.3 /1.15 = 2 A

Hence the force will be1

F = B i L = 0.81 * 2 * .41 = 0.66 N

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