1. WOW !
Magnet Magic

2. Magnets come in all shapes and sizes.
round
flat
bar
horseshoe
rod

3. 1/9 – Aurora Borelis
1/12 – compass
1/14 – magnetic field
1/15 – Electromagnet
1/16 – permanent magnet.
1/9 – explain how the Earth’s magnetic field protects us.
1/12 – Explain how the earth’s magnetic field protects us.
1/14 – Draw a magnetic field around a magnet.
1/15 – Describe how you might create an electromagnet.
1/16 – Describe how to decrease the force of an electromagnet.

4. Explain how animals use the Earth’s magnetic field.
Explain why a compass points North.
Describe how to create an electromagnetic.
Explain how to increase or decrease the strength of a magnet.
Explain what made the nail a magnet.
Explain how to create a magnet.
Name the type of material magnets are made.

5. Name the 3 types of magnets.
Draw a magnetic field.
Describe what creates the Earth’s magnetic field.
Describe how the Earth’s magnetic field protects the Earth.
Contrast permanent magnets and electromagnets.
Describe what creates the Aurora Borelais.
Explain how to create a compass.
Explain why a compass always points North.

6. Magnetism

7. Magnets have been known for centuries.
The Chinese and Greeks knew about the “magical” properties of magnets. The ancient Greeks used a stone substance called “magnetite.” It was discovered near Magnesta so called it magnetite.They discovered that the stone always pointed in the same direction. Later, stones of magnetite called “lodestones” were used in navigation.

8. What is Magnetism?
Magnetism is the force of attraction or repulsion of a magnetic material due to the arrangement of its atoms, particularly its electrons.

9. Magnet
Any material that attracts iron or materials containing iron caused by alignment of electrons.

10. Magnetic Attraction
Magnets attract metals such as iron, nickel, and cobalt

11. 3 Properties of Magnets 2 poles Exert forces
Surrounded by magnetic field

12. A magnet – strongest part is at the poles!!!
has a
north pole
and a
south pole. S N

13. What Increases Strengthen of Magnet?
The strength of the force between magnets depends on the distance between them.
The magnetic force decreases with distance much faster than does either gravity or the electric force.

14. What Creates Magnetic Material?14

15. What Makes Materials Magnetic?
Moving electrons produce magnetic fields that gives an atom a north or south pole.
In certain materials, the atoms line up to create magnetic fields which create domains.
You can create a magnet by rubbing an iron nail with a magnet. 15

16. Magnetic Properties of Materials
Magnetic domains in a ferromagnetic material will always orient themselves to attract a permanent magnet.
If a north pole approaches, domains grow that have south poles facing out.
If a south pole approaches, domains grow that have north poles facing out.

18. Properties of Magnets Key Question:
How do magnets interact with each other?

19. The north pole attracts the south pole of the other magnet.

20. The north pole repels the north pole of the other magnet.
You can feel the magnets pushing apart.
This is called repulsion
Note - south poles also repel each other

21. Like repels like…
Opposites attract!

22. Magnetic Fields
The field around a magnet where the magnetic forces can act.
Lines can be drawn to show the magnetic field around a magnet.

23. The region where the magnetic forces
Magnetic Fields
The region where the magnetic forces
act is called the “magnetic field”

24. The magnetic field
The number of field lines in a certain area indicates the relative strength of the magnetic field in that area.
The arrows on the field lines indicate the direction of the force.
The closer the lines are together, the stronger the field.
Magnetic field lines always point away from a magnet’s north pole and toward its south pole.

25. The magnetic field
All magnets create a magnetic field in the space around them, and the magnetic field creates forces on other magnets.
The number of field lines in a certain area indicates the relative strength of the magnetic field in that area. The
closer the lines are together, the stronger the field. The arrows on the field lines
indicate the direction of the force

26. 3 Properties of All Magnetic Fields
1. Similar poles of two magnets always repel each other
2. Dissimilar poles of magnets always attract each other
3. The two poles of a magnet are indivisible. The broken magnets act as independent magnets and possess two poles each. It concludes that, magnets are always bipolar.

27. The ends of a magnet are where the magnetic effect is the
strongest. These are called “poles.” Each magnet has
2 poles – 1 north, 1 south.

28. If you cut a magnet in half,
you get 2 magnets!

29. 3 Types of Magnets
Permanent: Difficult to magnetize but keep the magnetism
Temporary: easy to create a magnetic field but lose it quickly
Electromagnetic: magnet created with an electric current.

30. How To Make A Magnet?
Rub a magnet on a pin!

31. The Earth is a magnet:
It exerts magnetic forces and is surrounded by a
magnetic field that is strongest near the
North and South
magnetic poles
Magnetic South Pole
Magnetic North Pole

32. William Gilbert, an English physician, first proposed in 1600 that the Earth itself is a magnet, and he predicted that the Earth would be found to have magnetic poles.

33. The Magnetic Field of the Earth
As early as 500 B.C. people discovered that some naturally occurring materials— such as lodestone and magnetite—have magnetic properties.
By 1200, explorers from Italy were using a compass to guide ocean voyages beyond the sight of land.

34. NORTH POLE
The Earth is a magnet
WHY??

35. Cornell Univ.

36. The Earth is made of four layers

37. The Crust:
A Thin Rock Material

38. The Crust:
A Thin Rock Material
The Mantle:
Dense rock

39. Liquid Iron and Nickel The Crust: The Mantle: The Outer Core:
A Thin Rock Material
The Mantle:
A Dense and Mostly Solid Rock Material
The Outer Core:
Liquid Iron and Nickel

40. The Crust: The Mantle: The Outer Core: The Inner Core:
A Thin Rock Material
The Mantle:
A Dense and Mostly Solid Rock Material
The Outer Core:
Liquid Iron and Nickel
The Inner Core:
Solid Iron and Nickel

41. The Iron Core of the Earth is an Electromagnet

42. The Iron Core of the Earth is an electromagnet
The core is surrounded by liquid Iron and Nickel

43. The Iron Core of the Earth is an electromagnet
The core is surrounded by liquid Iron and Nickel
As electrons flow around the core the magnetic field is produced

44. The Iron Core of the Earth is an electromagnet
The core is surrounded by liquid Iron and Nickel
As electrons flow around the core the magnetic field is produced
The Earth’s rotation makes the electrons flow at very high speeds

46. A little more info…
The earth’s magnetic field isn’t strong enough for us to feel, but many animals can sense it and even use it to navigate. It’s only about 0.4 Gauss, much weaker than a small magnet you can hold in your hand.
On average, the North & South poles “flip” every 390,000 years. There have been 9 flips in the past 3.5 million years.

47. Magnetic North Pole
Sometimes, the Earth’s magnetic poles flip. This happens every half-million years or so.
Magnetic South Pole

48. The poles “flip” ?
No one knows how long the process takes, maybe a few years, maybe a few minutes.
Every so often, what was the North magnetic pole suddenly becomes the South magnetic pole.
Lava that cools quickly on the sea floor records these flips and lets us date them.

49. Why do we care?
Earth’s magnetic field isn’t just “there” with no purpose. Without it, you and I and every living thing on this planet would be dead (including the cockroaches!)
The magnetic field channels away the solar wind.
It also prevents erosion of the atmosphere.

50. Solar Wind So what is the solar wind anyway?
It’s radiation: extremely hot, high-energy, fast-moving charged particles (ions) given off by the sun. Most of these particles are protons.
If you were exposed to it for just a few hours without protection, your skin and every organ in your body would be burned, and you’d have a fatal dose of radiation poisoning.

51. How does the magnetic field protect us?
The magnetic field captures the solar wind and channels much of it into a donut of radiation around the earth.
This donut (actually 2 layers – one inside the other) is called the Van Allen Radiation Belt (V.A.R.B.)
Where the magnetic field collapses inward, creates the Northern and Southern Lights

53. Where does the radiation go?
Since the sun continually supplies new solar wind, where does the solar wind go that the earth has already captured?
The magnetic field channels some of it into our atmosphere at the north & south poles. Here it ionizes oxygen and nitrogen atoms, causing the beautiful northern and southern lights.

54. The solar wind is constantly bombarding the Earth’s magnetic field
The solar wind is constantly bombarding the Earth’s magnetic field. Sometimes these charged particles penetrate that field. These particles are found in two large regions known as the Van Allen Belts.

55. Where does the rest of the radiation go?
Much of it flows through the magnetic field, around the earth, and “drips” off the tail of the magnetic field. The tail is called the “magnetotail.”
Without our “Teflon-coating” of magnetic field, the earth would have been cooked many billions of years ago.

56. Northern Lights?
The northern lights are properly called the “aurora borealis.” They’re nothing more than a very large fluorescent light display (without the fluorescent tube!)
The northern lights are sometimes seen as far south as Florida, especially when the sun is very active.

57. The Earth’s magnetic field extends far into space
The Earth’s magnetic field extends far into space. It is called the “magnetosphere.”
When the magnetic particles from the sun, called “solar wind”, strike this magnetosphere, we see a phenomenon called…

59. This aurora was photographed in Tennessee in October, 2002.

60. The Aurora Borealis in the Northern Hemisphere
And the Aurora Australis in the Southern Hemisphere

61. The Magnetic Field of the Earth
Key Question:
How do we use Earth’s magnetic field to tell direction?

63. A compass uses a tiny magnet which can swing round
A compass uses a tiny magnet which can swing round. If opposites attract, why does a compass point north?

64. The Magnetic Field of the Earth
When you use a compass, the north-pointing end of the needle points toward a spot near (but not exactly at) the Earth’s geographic north pole.
The Earth’s magnetic poles are defined by the planet’s magnetic field.
That means the south magnetic pole of the planet is near the north geographic pole.

65. The North Pole of the Earth has a “south” polarity

66. As a result a compass will always point towards the North

67. A compass is a Magnetized piece of metal that can spin.

68. A compass is a Magnetized piece of metal that can spin.
North attracts South S
The north tip of the compass always points towards the North Pole of the Earth N

69. The Magnetic Field of the Earth
Depending on where you are, a compass will point slightly east or west of true north.

70. Using a compass to find directions
A compass needle always points to the Earth’s GEOGRAPHIC North Pole. Really the North pole is a South Magnetic pole
Some birds use the Earth’s magnetism to find directions.