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Electromagnetic Induction

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Presentation on theme: "Electromagnetic Induction"— Presentation transcript:

1 Electromagnetic Induction
Chapter 22 Electromagnetic Induction

2 1) Induced emf and induced current
Changing B-field induces current

3 Changing coil area or orientation induces current

4 Changing the number of lines of force through loop induces current
Induced current indicates induced emf and induced electric field • Changing magnetic field produces electric field

5 2) Motional emf The principle • B-field exerts force on moving charges
FB + v FB

6 E E ==> free charges separate
• separated charges produce electric field and a corresponding potential difference E

7 • E - field exerts force on charges
+ FE - FE

8 E E • Charges stop moving when the forces balance: so,
Induced emf predicted from statics

9 2) Motional emf b) Application

10 c) Induced emf from conservation of energy
FB FA= FB

11 Power to push rod at speed v:
Using, FA= FB FB

12 Power to push rod at speed v:
Electrical power consumed: So, FA= FB FB

13 3) Magnetic flux, F Define Flux:
- Proportional to the lines of force through a surface B Normal f

14 b) Flux and motional emf

15 4) Lenz’s law Direction of induced current produces a magnetic field that opposes the change in flux flux into loop increases because of v: DF/Dt > 0 induced current produces flux out of loop (opposite direction) Define external flux as positive. Then

16 flux into loop decreases because of v: DF/Dt < 0
induced current produces flux into loop (same direction to oppose the decrease) Define external flux as positive. Then induced flux is also positive, so again v

17 5) Faraday’s Law For any changing flux in any loop, the emf induced in the loop is (for N turns) where F is the flux through one turn

18 7) Induction and sound Microphone

19 Guitar pickup

20 Magnetic tape

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