Chapter 24 Magnetic Fields
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Transcript of Chapter 24 Magnetic Fields
![Page 1: Chapter 24 Magnetic Fields](https://reader036.fdocuments.in/reader036/viewer/2022082211/56812dcc550346895d9309dd/html5/thumbnails/1.jpg)
Chapter 24 Magnetic Fields
![Page 2: Chapter 24 Magnetic Fields](https://reader036.fdocuments.in/reader036/viewer/2022082211/56812dcc550346895d9309dd/html5/thumbnails/2.jpg)
Objectives
• 24.1 Describe the properties of magnets and the origin of magnetism in materials
• 24.1 Compare various magnetic fields
![Page 3: Chapter 24 Magnetic Fields](https://reader036.fdocuments.in/reader036/viewer/2022082211/56812dcc550346895d9309dd/html5/thumbnails/3.jpg)
Objectives
• 24.2 Relate magnetic induction to the direction of the force on a current carrying wire in a magnetic field
• 24.2 Solve problems involving magnetic field strength and the forces on current-carrying wire, and on moving, charged particles in magnetic fields
• 24.2 Describe the design and operation of an electric field motor
![Page 4: Chapter 24 Magnetic Fields](https://reader036.fdocuments.in/reader036/viewer/2022082211/56812dcc550346895d9309dd/html5/thumbnails/4.jpg)
Magnetic Poles
• Magnets are polarized– One positive end, one negative end– Compasses are just magnets free to spin
• If you slice a magnet in half, you retain two opposite poles– No scientist yet to make a monopole
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Opposites Attract
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The Earth
• Earth is a big magnet. The actual location of the magnetic poles change every year by about 40 miles
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Magnetic Declination
• Your compass points to the magnetic pole, not to the true north pole
• As you approach the poles, you have to add/subtract degrees to go the right direction
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• The north arrow on the compass rose (the large N) is pointed towards the place on the horizon directly beneath the North Star! That is, towards true north!
• And the needle (of course) points towards magnetic north! So the magnetic declination for this locality is 45 degrees west
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Temporary Magnets
• Most metal objects are NOT magnetic but they can become magnets when in contact with a magnet– A magnet holding a nail polarizes the nail to make
it a temporary magnet
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Permanent Magnets
• Of the common metals, only 3 actually produce a magnetic field– Iron, Nickel, Cobalt (The Iron Triad)– Many rare earth elements also do, but we don’t
need to know about those
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Magnetic Flux
• The strength of the magnet.
• Strongest where the field lines are closest together
• Flux per unit area is proportional to strength
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First Right Hand Rule
• Current moving causes a field (the current is Positive, opposite of the actual electrons)
• Bigger Current = Stronger field
• Thumb points towards North
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Solenoid: Coils wrapped around with a current moving through
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Thumb points towards the North End
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• How computers work is through magnetized domains
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Computers
• Surface covered in magnetic particles• Recording: Current goes through disk drive’s
read/write head (em magnet iron core). Current induces a magnetic field onto bits– Magnetic particles line up and orient
• To read/retrieve, no current is sent to the read/write head. The bands (bits) induce a current to the read/write head. 0 or 1
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Questions
• A long, straight, current carrying wire runs from North to South. – A compass needle placed above the wire points
with its N-pole toward the east. In what direction is the current flowing?
– What direction would the needle point if the compass were below the wire points?
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More on Fields
• Current induces a field and causes a force to act on current carrying wire (or other wires)– Uses below
• Loudspeakers (wire moves)• Galvonometer: Measures the current• TV’s: Lining up the electrons
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Magnetic Fields
• Points towards the South Pole– So, South must be Negative end – Since magnetic fields point towards the negative
charge• Earth’s North pole– Is the south magnet
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Magnetic Field
• Measured in Teslas
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Calculating Strength of Magnetic Field
• F = BIL• Force = (Magnetic Field Strength) (Current)
(Length of wire)
• A wire 0.50 m long carries a current of 8.0 Amps at a right angle to a 0.40 T magnetic field. How strong a force acts on on the wire?
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Force on a moving charged particle
• F = Bqv• Force = Field x Charge x Velocity of particle
• How strong a force acts on a moving electron which is traveling a 3,000,000 m/s through a uniform magnetic field of 0.04 T at right angles to the field.