magnetism
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Magnetism. Chapters 36 & 37. Magnetism. A brief history Lodestones were found in Greece some 2000 years ago. The Chinese later used them for navigating ships. In the 18 th century, Charles Coulomb conducted a study of the forces between lodestones. Magnetism. A brief history: - PowerPoint PPT PresentationTRANSCRIPT
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MagnetismChapters 36 & 37
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MagnetismA brief history
Lodestones were found in Greece some 2000 years ago.
The Chinese later used them for navigating ships.
In the 18th century, Charles Coulomb conducted a study of the forces between lodestones.
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MagnetismA brief history:
Until early 19th century, electricity and magnetism were considered to be separate fields.
Hans Christian Oersted, in 1820, discovered a relationship between the two during a classroom demonstration.
This led to new technology that would bring electric power, radio and television.
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Magnetic PolesMagnets apply forces on each other similar
to charges.
Magnets can attract and repel each other.
Magnets have poles that are the regions in the magnet that apply forces.
Magnetic poles are not positive and negative, but rather North and South.
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Magnetic PolesThere is a rule when it comes to the
poles of magnets:
Like poles repel; opposite poles attract.
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Magnetic PolesWhat would happen if you were to cut a bar
magnet in half?
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Magnetic FieldEvery magnet produces a magnetic field.
A magnet’s magnetic field is similar to a planet’s gravitational field.
When another magnet is near, or even a compass, it will lie in a line with the magnetic field.
Similarly, iron filings become tiny bar magnets in the presence of a magnetic field.
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Magnetic FieldWhat did we learn in our lab about the shape of
a magnetic field around a bar magnet?
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Magnetic FieldWhat did we learn about the direction of the
magnetic field lines around a bar magnet?
Field lines go out from the North and into the South.
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Magnetic FieldWhat would happen to the magnetic fields
of two like poles placed next to each other?
N N
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Magnetic FieldWhat would happen to the magnetic fields
of two like poles placed next to each other?
N N
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Magnetic FieldWhat would happen to the magnetic fields
of two opposite poles placed next to each other?
N S
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Magnetic FieldWhat would happen to the magnetic fields
of two opposite poles placed next to each other?
N S
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Magnetic FieldWhat can you tell about the two magnets in
each of these situations?
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Earth’s Magnetic FieldThis is a drawing of Earth’s magnetic field
and its direction. What do you notice?
So which magnetic pole is which?
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Magnetic DomainsMagnetic
domains = a microscopic cluster of atoms with their magnetic fields aligned.
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Magnetic DomainsIn our lab yesterday, how were you able to pick
up the paperclips with the nail?
What did the magnet do to the nail?
Induced magnetism = metals (particularly iron) exhibiting magnetic properties due to contact with another magnet.
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Electric Current & Magnetic Field
Remember Oersted? What did he discover during a classroom presentation?
A moving charge/current produces a magnetic field, deflecting a compass.
No current: Current:
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Electromagnetism• First Right-Hand
Rule– Thumb points in
direction of current
– Fingers follow magnetic field lines (direction of magnetic field)
I
I
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Electric Current & Magnetic Field
These are examples of a current-carrying wire, a current-carrying loop and a coil of loops.
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Electric Current & Magnetic FieldIf a current-carrying wire is bent into a loop, the
magnetic field lines bunch up. If you add another loop and another, the magnetic field becomes more and more concentrated. This coil is called an electromagnet.
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Electromagnetism• What about a
coil of wire?–The RHR still
applies!
I
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Electromagnets• Coil has a field like any
permanent magnet with N and S poles• Advantage: can be turned off
and on
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Electromagnets• 2nd Right-Hand Rule–Determine magnetic field of
electromagnets–Fingers follow current as it curls in the
coil–Thumb points in direction of N pole
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Magnetic ForceA magnetic field will also apply a force on a
current-carrying wire.
To determine direction, we use the Right Hand Rule.
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Forces caused by Magnetic Fields
• Vectors• Perpendicular to magnetic
field lines and current
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Forces caused by Magnetic Fields
• 3rd Right-Hand Rule– Determine direction of Force on a current-
carrying wire in a magnetic field
N S
I
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Magnetic ForceLet’s try another one…
Thumb points in direction of current.
Fingers point in direction of magnetic field.
Palm points in direction of force.
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Magnetic Force
N
Give this one a try:
S
I
Force: into the page
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Magnetic Force
N S
I Force: out of the page
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Magnetic Force
N S
I
X
Force: down
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Forces caused by Magnetic Fields
• F = BIL–B = strength of magnetic field–I = current in the wire–L = length of wire in magnetic field
–We know how to measure F, I and L, but not B so instead we use…
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Forces caused by Magnetic Fields
• B = F / (IL)–Magnetic induction – strength of
the magnetic field• Units: Tesla (T)• 1 T is very strong•Most lab magnets are 0.01 T• Earth’s magnetic field is 5 X 10-5 T
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A Simple DC Motor
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A Simple DC Motor
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Important Definitions•Magnetic flux–Number of magnetic field lines
passing through a surface
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Electromagnetic InductionFaraday discovered that
electric current could be produced in a wire simply by moving a magnet in and out of a coil of the wire.
This is called electromagnetic induction.
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Electromagnetic InductionThe greater the number of loops of wire that move
in a magnetic field, the greater the induced voltage and the greater the current in the wire.
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Magnetic ForceA magnetic field applies a force on a moving charge.
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Force on a single charged particle
• Cathode ray tube – TV!–Electrons deflected by magnetic
fields to form pictures
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Cathode Ray TubeElectric fields pull electrons off atoms,
then more electric fields gather, and focus electrons into a beam.
• Magnetic fields deflect electrons side to side and up and down across the screen• Screen coated with phosphorous that
glows when struck
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Force on a single charged particle
• F = BIL• F = B(qv/L)L• F = Bqv–q = charge of electron–v = particle velocity
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Magnetic ForceThe magnetic field of Earth deflects many
charged particles that make up cosmic radiation.
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Van Allen Radiation Belts• Electrons trapped in Earth’s magnetic
field– Solar storms send high-energy charged
particles toward Earth–They knock electrons off VA belts–The electrons excite nitrogen and oxygen
in the atmosphere creating a “halo”–The halo surrounds geomagnetic north
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Van Allen Belts• The Van Allen radiation belts are formed as a
result of earth’s magnetic field and shield us from radiation. We can see the aurora borealis as a result.