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Magnetic Induction. Key Points about Induction  If the current in the primary circuit is constant, then the current in the secondary circuit is zero.

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Presentation on theme: "Magnetic Induction. Key Points about Induction  If the current in the primary circuit is constant, then the current in the secondary circuit is zero."— Presentation transcript:

1 Magnetic Induction

2 Key Points about Induction  If the current in the primary circuit is constant, then the current in the secondary circuit is zero.  When the magnetic field in the secondary circuit increases the current flows in one direction, and when the magnetic field decreases the current flows in the opposite direction.  The magnitude of the induced current and emf are proportional to the rate of change of the magnetic field.

3 Induced Current Produced by a Moving Magnet

4 The Magnetic Flux Through a Loop

5 Magnetic Flux

6 Find the flux through each side of the box.

7 Which flux(es) change(s) with time?

8 When will the emf and the magnetic flux be the greatest?

9 A Dynamic Microphone

10 The Pickup on an Electric Guitar

11 Magnetic Tape Recording

12 Induction Loop for the Hearing Impaired

13 Applying Lenz’s Law to a Magnet Moving Toward and Away From a Current Loop The polarity of the induced emf in a loop is such that it produces a current whose magnetic field opposes the change in magnetic flux through the loop. That is, the induced current is in a direction such that the induced magnetic field attempts to maintain the original flux through the loop.

14 How do the accelerations compare?

15 Lenz’s Law Applied to a Decreasing Magnetic Field

16 Motional emf

17 Which plate is positively charge if the field increases?

18 What are the induced currents if I increases?

19 Eddy Currents

20 Quantitative Information from Lenz and Faraday

21 Find |B|, |F|, W, E, i, and |v|.

22 What are the induced current and the speed of the rod?

23 An Electric Generator

24 A Simple Electric Motor

25 Induced emf of a Rotating Coil

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