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Magnetism Chapter 36. What is a Magnet? Material or object that produces a magnetic field. Two types:  Permanent  Electromagnet.

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Presentation on theme: "Magnetism Chapter 36. What is a Magnet? Material or object that produces a magnetic field. Two types:  Permanent  Electromagnet."— Presentation transcript:

1 Magnetism Chapter 36

2 What is a Magnet? Material or object that produces a magnetic field. Two types:  Permanent  Electromagnet

3 What causes Magnetism? In order to create a magnetic field, a charged particle must be moving. Moving and spinning electrons cause magnetic fields in every object.

4 Domains A small region of space where the magnetic fields produced by moving electrons are aligned together. Often, the directions of the domains cancel each other out. Ferromagnetic material  Cancellations do not occur, resulting in a net magnetic field

5 Domains

6 Magnetism Opposites poles attract Like poles Repel Magnetic Poles can not be separated  Every object that has a north pole has a south pole

7 Magnetism

8 Magnetic Field Region around a moving charged particle through which a force is exerted on another moving charged particle Similar to Electric Fields

9 Magnetic Field Lines Lines are not real North  South (outside magnet) Can not cross Closer lines mean stronger field

10 Magnetic Field Lines

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13 Magnetic Field Magnetic Field is a region around a moving charged object through which a force is exerted on another moving charged particle Motion of particle must be perpendicular to the magnetic field

14 Magnetic Fields Magnetic Fields are often illustrated using arrows

15 Magnetic Fields What about into the page or out of the page? Out of Page Into Page

16 Magnetic Hand Rules To determine the direction of the force, we use hand rules. Different hands for different charges  Right hand for Positive charges  Left hand for Negative charges

17 Conventional Current Conventional Current follows the old “convention” that positive charges are the charges that are moving in current Use Right Hand Rule

18 Electron Current Electron Current is the reality that negative charges are the charges that are moving in current Use Left Hand Rule

19 Magnetic Hand Rules Point index finger in direction of motion Point palm or other fingers in direction of magnetic field Point thumb in direction of Magnetic Force

20 Example An electron is moving through a magnetic field as shown below. In what direction will the magnetic force be? Out of page e

21 Another Example An electron is moving through a magnetic field as shown below. In what direction will the magnetic force be? Down e

22 Force on Wire Still use hand rule to determine the direction of the magnetic force Index finger is the direction of the current

23 Magnetic Fields produced by Currents A current carrying wire also produces a magnetic field Direction follows second Hand Rule

24 Magnetic Fields produced by Currents Second Hand Rule Thumb in direction of current Curl fingers around wire Curled fingers show direction of magnetic field

25 Example What is the direction of the magnetic force exerted on wire 2 by the magnetic field produced by wire 1? I-I- I-I- 1 2 Down

26 Example What is the direction of the magnetic force exerted on wire 1 by the magnetic field produced by wire 2? I-I- I-I- 1 2 Down

27 Magnetic Fields produced by current carrying loops Imagine current flowing through the loop below In what direction will the magnetic field be produced inside the loop? Into Page I-I-

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29 Electromagnets Temporary magnet caused by an induced magnetic field from current carrying wires.

30 Electromagnets Current carrying wire produces a magnetic field Coiling the wire bunches up the magnetic field inside the coil

31 Electromagnets Increasing the strength of the electromagnet:  Increase Current in wire  Increase number of coils  Add an iron core

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33 Electromagnetic Induction If charged particle moving through a magnetic field feels a force, shouldn’t a moving magnetic field exert a force on a charged particle?

34 Electromagnetic Induction A voltage can be “induced” in a wire by moving a magnet near the wire.  often a coil of wire is used Faraday’s Law  Induced voltage is directly proportional to the number of coils, cross-sectional area of the coils, and rate of change of magnetic field

35 Electromagnetic Induction

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37 Inducing a current in a coil of wire creates its own magnetic field

38 Electromagnetic Induction Changing direction of magnetic field changes direction of induced voltage  Creating an alternating current (AC)

39 Alternating Current  Current alternates direction at a regular rate Electrical Outlets Direct Current  Current flows in one direction only Batteries Sim

40 Generators & Motors Device to convert between Electrical and Mechanical Energy Generator  Converts Mechanical Energy to Electrical Energy Motor  Converts Electrical energy to Mechanical Energy

41 Generator

42 Motor

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