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Title: MAGNETISM

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Ancient civilizations (Greek 590 BCE, Chinese 2600 BCE) realized that these ... Naturally 'magnetic': magnetite, iron, nickel, cobalt, steel, Alnico, other alloys ... – PowerPoint PPT presentation

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Title: MAGNETISM

1
MAGNETISM
2
Lodestones

Natural Magnets
Magnetite Fe3O4 (an oxide of iron)
Ancient civilizations (Greek 590 BCE Chinese
2600 BCE) realized that these stones would cling
to iron tools.
A suspended pivoting lodestone always pointed
along the North-South axis

3
Lodestones

Magnetite crystals have been found in living
organisms
Magnetotactic bacteria!
Migratory Bird brains!!
Other migratory animals bees fish
Human brains!!!
YOU HAVE ROCKS IN YOUR HEAD!!!!!

4
Lodestones
5
Permanent Magnets

By 2nd Century AD Chinese were able to make
permanent magnets by repeatedly stroking an iron
rod or needle from end to end along a lodestone
but always in the same direction.
Retained strength of a magnet depends on chemical
properties of the metal.
Soft iron loses magnetism quickly
Low-carbon soft steel (paper clips nails)
gradual loss
Hard steel retains power for a long time and is
referred to as a permanent magnet

6
Magnetic Poles

Magnets produce a force on other objects
Poles are regions where the magnetic force is the
strongest
Like magnetic poles repel.
Opposite magnetic poles attract.
Most magnets have two poles (dipole) but can
have three or more!

7
Monopole (No not Monopoly!)

Monopole piece of a magnet that is simply a
north pole or a south pole
Many have tried to isolate a monopole by breaking
magnets in half.
No matter how we break a magnet the pieces are
always dipoles!
A monopole cannot be isolated.
Do not pass GO.Do not collect 200.

8
Magnetic Field

Every magnet establishes in the space surrounding
it a magnetic field (B-field)
Map field with a test-compass
Direction of field is direction in which the
test-compass needle will point at that location.
Draw field lines so that compass always points
tangent to the field lines.
Field lines point from N to S outside the magnet
Field lines point from S to N inside the magnet
Field lines form closed loops
Field lines never intersect
SI unit for B (magnetic field strength) is the
tesla (T)

9
Magnetic Field Lines
10
Magnetic Field
Mapping with Test-Compass
Field Lines Form Closed Loops
Field Mapped by Iron Filings
11
Earths Magnetism

Magnetic field has reversed direction 300 times
in the past 170 million years
Magnetic poles wander!
Magnetic geographic poles not the same.
Magnetic declination 11.5
Whats strange about this picture

12
Magnetism on an Atomic Level

Charge in motion (electric current) produces
magnetic force
Electrons function as a subatomic dipole
Electron spin
Electrons existing in pairs B-fields cancel
Electron orbit around nucleus
Random orbits of electrons B-fields cancel

13
Magnetic Field of a Moving Charge

mo 4p x10-7 Tm/A

There is magnetic field everywhere were charged
particles are moving
Moving charged particle has both electric and
magnetic fields

B
R
V
14
Diamagnetism

Even non magnetic materials respond to an
applied B-field
Applied B-field changes orbital motion of
electrons
Produces a field that opposes applied field
Repelled by applied field
Diamagnetic materials have no permanent atomic
dipoles
Occurs for all substances but may be swamped by
other magnetic effects

15
Paramagnetism

Paramagnetic materials are attracted when placed
in a strong B-field.
Composed of atoms with permanent atomic dipoles
Atomic dipoles do not interact w/ one another
Atomic dipoles oriented randomly
Material has no dipole as a whole
A strong B-field re-orients these atomic dipoles
in same direction as applied field

16
Ferromagnetism

Naturally magnetic magnetite iron nickel
cobalt steel Alnico other alloys
Strongly attracted to poles of a magnet
Easily magnetized
Atomic dipoles interact strongly with dipoles of
adjacent atoms
Dipoles align spontaneously w/o an applied field
Many atomic dipoles cooperatively align
Creates regions of parallel orientations (domains)

17
Magnetic Domains

Domain region where many atomic dipoles are
aligned
Usually aligned randomly and effects cancel
BUT
Place ferromagnetic material in strong B-field
Entire domains realign with applied field
Size shape of domains remains the same
Causes irreversible re-orientation of domains
Creates permanent magnets

18
Reorientation of Domains
Electrons in domains align with applied field
Substance is Permanently Magnetized
Domains are not aligned
19
Electrodynamics The Study of Electromagnetism

Magnetism is caused by charge in motion.
Charges at rest have just an electric field
But when they move they generate both an
electric field and a magnetic field
Can look at individual charges or electric
current in a wire
Direction of current determines direction of the
magnetic field.
Use right hand rules for analysis.

20
Magnetic Field of a Straight Wire
B mI/2pR
21
First Right Hand Rule thumb points in direction
of current fingers curl in direction of magnetic
field- note compass readings. Use for
current-carrying wire.
Fig 19.15b p.678
21
22
2nd Right Hand Rule- Fingers curl in direction of
current thumb points to direction of magnetic
field. Use for current-carrying loop or solenoid
coil.
B
Fig 19.20b p.682
22
23
3rd Right Hand Rule

Gives the direction of the FORCE exerted on a
current (or charge) by an external magnetic field
Point fingers of RH in direction of current (or
motion of charge)
Curl fingers through smallest angle to direction
of magnetic field
Thumb indicates direction of the force