Magnetism Chapter 6 1 Magnetism Magnetism was known

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Magnetism Chapter 6 1

Magnetism Chapter 6 1

Magnetism • Magnetism was known from long times ago • Ancient Greek and Chinese

Magnetism • Magnetism was known from long times ago • Ancient Greek and Chinese used stones exist in nature that have “magical” attractive properties later known as lodestone and magnetite (iron oxide Fe 203) • These stones used in navigation • Today we know that iron, cobalt, and nickel are magnetic materials. They are magnets due to special arrangements of their electrons • Other elements like aluminum, silver, gold, … are not magnets (Why? ) 2

Magnetic Materials A natural magnet is a material made of magnetite A natural magnet

Magnetic Materials A natural magnet is a material made of magnetite A natural magnet attracts certain materials: • Cobalt • Nickel • Iron • Steel • Alloys of any of the above These materials are called Magnetic materials 3

What Does a Magnet Do? • A magnet exert a force of attraction or

What Does a Magnet Do? • A magnet exert a force of attraction or repulsion on magnetic materials only 4

Types of magnets electromagnet 5

Types of magnets electromagnet 5

Properties of Magnets have the following properties: • a magnet has 2 magnetic poles

Properties of Magnets have the following properties: • a magnet has 2 magnetic poles - the North and South seeking poles If allowed to swing freely, a magnet will come to • rest with one end pointing towards the Earth’s North pole, the other end pointing towards the Earth’s South pole • Like poles repel, Unlike poles attract 6

Like poles repel, unlike poles attract 7

Like poles repel, unlike poles attract 7

If you cut a magnet into halves, you get two magnets • There is

If you cut a magnet into halves, you get two magnets • There is no single poles or monopoles no matter how many times you cut a magnet into halves 8

Broken Magnets Before after 9

Broken Magnets Before after 9

Magnetic Field • Magnetic field is the space surrounding a magnet • Represented by

Magnetic Field • Magnetic field is the space surrounding a magnet • Represented by magnetic lines • Magnetic lines leave the N-pole, to air, to S-pole, and inside the magnet • Magnetic lines are loops • Any magnetic materials that enter the field is subject to magnetic force • Magnetic lines never Intersect • The closer lines, the Stronger the field 10

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Earth is a Big Magnet • Shaped and oriented as if huge bar magnet

Earth is a Big Magnet • Shaped and oriented as if huge bar magnet were inside • South pole of magnet near geographic north pole Geographic North Pole and north magnetic pole different Which is the smallest naturally occurred magnet you think? 14

Compasses • Compasses (a magnet)are used to determine direction • Compass needles are magnetized

Compasses • Compasses (a magnet)are used to determine direction • Compass needles are magnetized and respond to the magnetic field of the Earth • Compasses point to the magnetic poles of earth 15

Magnetic Domains Magnetic domains are atoms with similar magnetic orientations line up with neighboring

Magnetic Domains Magnetic domains are atoms with similar magnetic orientations line up with neighboring atoms in groups. These domains are typically composed of billions of atoms 16

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How To magnetize an Iron Nail? When the permanent magnet is removed, the iron

How To magnetize an Iron Nail? When the permanent magnet is removed, the iron nail loses its magnetization quickly and goes back from B to A 18

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Electric currents produces magnetism • Electromagnetism is the production of magnetism from currents •

Electric currents produces magnetism • Electromagnetism is the production of magnetism from currents • The shape of the magnetic field is determined by the geometry of current • Straight wire: concentric circles magnetic field • Solenoid: central field 20

Electromagnetic Induction • • Electromagnetic induction: a changing magnetic field produces an electrical current

Electromagnetic Induction • • Electromagnetic induction: a changing magnetic field produces an electrical current Different ways to change magnetic field - turn on the key in a DC circuit - Move a magnet up or down inside a stationary coil and vice versa DC changes to a constant value and then remains constant 21

Application of Electromagnetic Induction • Electric generator • Transformer electric generator 22

Application of Electromagnetic Induction • Electric generator • Transformer electric generator 22

Quiz • Which of these will stick to a magnet? 23

Quiz • Which of these will stick to a magnet? 23

1. Aluminium is not magnetic. A. True B. False 2. Some magnets also have

1. Aluminium is not magnetic. A. True B. False 2. Some magnets also have an east and west pole. A. True B. False 3. Magnets attract materials made of iron. A. True B. False 4. South poles attract each other. 5. A. True 6. False 24

5. The magnetic field is the area around a magnet where the magnetic force

5. The magnetic field is the area around a magnet where the magnetic force can be felt. A. True B. False 6. If you break a magnet, you get two smaller magnets. A. True B. False 7. The north pole of a magnet is always stronger than the south pole. A. True B. False 8. Some magnets only have a north pole. A. True B. False 25

9. Iron filings can be used to show the shape of the magnetic field.

9. Iron filings can be used to show the shape of the magnetic field. A. True B. False 10. Magnetic field lines always go out of the north pole. A. True B. False 11. Magnetic field lines come out of both ends of a magnet. A. True B. False 12. Magnetic materials placed in the magnetic field will be attracted towards the magnet. A. True B. False 26

What is magnetism? a) a kind of glue b) an invisible force that pushes

What is magnetism? a) a kind of glue b) an invisible force that pushes or pulls magnetic materials c) something that an attractive person has. Which of the following metals can be magnetised? a) copper b) aluminium c) iron. All magnets are surrounded by. . . a) metal b) a magnetic field c) nothing. If magnetic field lines are close together it means. . . a) the magnetic field is very strong b) the magnetic field is very weak c) there’s not much space for the field to spread into. 27

A wire carrying a current. . . a) continues to act like a magnet

A wire carrying a current. . . a) continues to act like a magnet when the current is switched off b) produces circular magnetic field lines c) produces no magnetic field. 28

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