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Review p. 76 #12 Electromagnetic Induction Topic 12.3/12.4.

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Presentation on theme: "Review p. 76 #12 Electromagnetic Induction Topic 12.3/12.4."— Presentation transcript:

1

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3 Review p. 76 #12

4 Electromagnetic Induction
Topic 12.3/12.4

5 Outcomes You will describe how the discoveries of Oersted and Faraday form the foundation of the theory relating electricity to magnetism You will describe, qualitatively, the effects of moving a conductor in an external magnetic field, in terms of moving charges in a magnetic field.

6 Can a magnetic field produce an electric current?
After Oersted discovered that an electric current produces a magnetic field, many scientists investigated if a magnetic field could produce an electric current It can! Electromagnetic induction Induced current

7 Hand Rule The direction of the current can be predicted by using the “third” hand rule: Fingers: direction of the magnetic field Thumb: direction of motion of the wire Palm: direction of the force on the electrons in the wire

8 Sample Problem In what direction is the induced electron flow flowing in this circuit? CLOCKWISE

9 Faraday’s Apparatus & Lenz’s Law
Faraday discovered that when the switch of his induction coil was closed or opened, the galvanometer deflected, indicating that a brief current passed through the secondary coil If the switch remained opened or closed there would be no detection on the galvanometer

10 Faraday’s Apparatus & Lenz’s Law
An electric current is produced (induced) in the solenoid when it is moving relative to the magnetic field The galvanometer will deflect in different directions, depending on the movement of the magnet and the solenoid The direction of the induced current can be found using Lenz’s law

11 Lenz’s Law Lenz’s law is an application of the law of conservation of energy MUST DO WORK AGAINST THE SYSTEM TO GAIN ENERGY For example, when a magnet is pushed into the coil, a current is induced in the coil. Lenz’s law indicates that the current will flow so that the magnetic field inside the coil opposes the magnetic field of the magnet. “Making it difficult…”

12 Sample Problem In what direction is the induced current (electron flow) through point G? LEFT

13 Sample Problem In what direction is the induced current (electron flow) through point G? LEFT

14 Sample Problem In what direction is the induced current (electron flow) through point G? RIGHT

15 Homework Concept Qs: p. 620 #3, 6 & 7
Calculation Qs: p. 65 #25 – 28 (workbook) Hand Rule Worksheet

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