electromagnetism well explained.pdf
TRANSCRIPT
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ISU EE C.Y. Lee
Chapter 7Magnetism and
Electromagnetism
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2ISU EE C.Y. Lee
Objectives
Explain the principles of the magnetic fieldExplain the principles of electromagnetismDescribe the principle of operation for several types of electromagnetic devicesDiscuss the principle of electromagnetic inductionDescribe some applications of electromagnetic induction
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3ISU EE C.Y. Lee
The Magnetic FieldA permanent magnet has a magnetic field surrounding itA magnetic field is envisioned to consist of flux lines that radiate from the north pole to the south pole and back to the north pole through the magnetic material
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4ISU EE C.Y. Lee
Attraction and RepulsionUnlike magnetic poles have an attractive force between them
Two like poles repel each other
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5ISU EE C.Y. Lee
Altering a Magnetic FieldWhen nonmagnetic materials such as paper, glass, wood or plastic are placed in a magnetic field, the lines of force are unaltered
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6ISU EE C.Y. Lee
Altering a Magnetic FieldWhen a magnetic material such as iron is placed in a magnetic field, the flux lines tend to be altered to pass through the magnetic material
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7ISU EE C.Y. Lee
Magnetic FluxThe force lines going from the north pole to the south pole of a magnet are called magnetic flux (φ); units: weber (Wb)The magnetic flux density (B) is the amount of flux per unit area perpendicular to the magnetic field; units: tesla (T)
1 T = 10000 G (Gauss)
AB φ=
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8ISU EE C.Y. Lee
Magnetic Flux
AB φ=
Example: Find the flux density in a magnetic field in which the flux in 0.1 m2 is 800 μWb
TmWb
AB μμφ 8000
10800
2 ===.
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9ISU EE C.Y. Lee
Magnetizing Materials
Ferromagnetic materials such as iron, nickel and cobalt have randomly oriented magnetic domains, which become aligned when placed in a magnetic field, thus they effectively become magnets
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10ISU EE C.Y. Lee
Application (Magnetic Switch)
Operation of a magnetic switch
Connection of a typical perimeter alarm system
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11ISU EE C.Y. Lee
Electromagnetism
The right-hand rule is used to determine the direction of the lines of force
Electromagnetism is the production of a magnetic field by current in a conductor
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12ISU EE C.Y. Lee
Electromagnetic FieldWhen current passes through a conductor, an electromagnetic field is created around the conductor
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13ISU EE C.Y. Lee
Electromagnetic DevicesElectromagnets are used in devices such as magnetic disk, electric motors, speakers, solenoids, and relays
Read/write function on a magnetic surface
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14ISU EE C.Y. Lee
Electromagnetic DevicesThe solenoid is used for applications such as opening and closing valves and automobile door locks
Basic solenoid operation:
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15ISU EE C.Y. Lee
Electromagnetic DevicesRelays differ from solenoids in that the electromagnetic action is used to open or close electrical contacts rather than to provide mechanical movement
Basic structure of a relay:
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16ISU EE C.Y. Lee
Electromagnetic DevicesPermanent-magnet speakers are commonly used in stereos, radios, and TVs, and their operation is based on the principle of electromagnetism
Basic speaker operation with movement:
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17ISU EE C.Y. Lee
Electromagnetic InductionWhen a conductor is moved through a magnetic field, a voltage is induced across the conductorThis principle is known as electromagnetic induction
The faster the relative motion, the greater the induced voltage
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18ISU EE C.Y. Lee
Relative MotionWhen a magnetic field is moved past a stationary wire, there is also relative motionThe induce voltage depends on the rate of relative motion between the wire and the magnetic field
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19ISU EE C.Y. Lee
Polarity of Induced VoltageThe direction of movement of a wire through a magnetic field will affect the polarity of the induced voltage as indicated below:
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20ISU EE C.Y. Lee
Induced CurrentThe voltage induced by the relative motion of a wire through a magnetic field will cause a current in a load connected to the wireThis current is called an induced current
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21ISU EE C.Y. Lee
Motor ActionWhen a current flows through a wire that is in a magnetic field, the direction of current flow will result in the magnetic field being weakened on one side, and strengthened on the otherThe result of the weakened and strengthened field is a force on the conductor
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22ISU EE C.Y. Lee
Faraday’s LawThe voltage induced across a coil of wire equals the number of turns in the coil times the rate of change of the magnetic flux
dtdN BΦ
−=ε
MOVIE ACTIVE
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23ISU EE C.Y. Lee
Lenz’s LawLenz’ Law states the polarity of the induced voltage in a loop is such that it produces a current whose magnetic field opposes the change in magnetic flux through the loop
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24ISU EE C.Y. Lee
DC GeneratorBasic operation of a dc generator
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25ISU EE C.Y. Lee
Summary
Unlike magnetic poles attract each other, and like poles repel each otherMaterials that can be magnetized are called ferromagneticWhen there is current through a conductor, it produces an electromagnetic field around the conductorThe right-hand rule can be used to establish the direction of the electromagnetic lines of force around a conductor
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26ISU EE C.Y. Lee
Summary
When a conductor moves within a magnetic field, or when a magnetic field moves relative to a conductor, a voltage is induced across the conductorThe faster the relative motion between a conductor and a magnetic field, the greater is the induced voltageThe polarity of the induced voltage in a loop is such that it produces a current whose magnetic field opposes the change in magnetic flux through the loop