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C H A P T E R 21 Magnetic Forces and Magnetic Fields.

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Presentation on theme: "C H A P T E R 21 Magnetic Forces and Magnetic Fields."— Presentation transcript:

1 C H A P T E R 21 Magnetic Forces and Magnetic Fields

2 Outline Magnets, Magnetic fields, and Magnetic field of the Earth Force on a moving charge in a magnetic field Motion of a charge particle in a magnetic field The mass spectrometer Force on a current in a magnetic field Magnetic fields produced by currents Magnetic Resonance Imaging (MRI) Cathode Ray Tube (CRT) Magnetic Tape recording and Maglev Trains

3 21.7. Magnetic Fields Produced by Currents

4 Right Hand rule 2:Long straight current-carrying wire Point your right thumb in the direction of the current and then wrap your fingers around the wire. The magnetic field will form concentric circle in the direction of your fingers.

5

6 21.7. Magnetic Fields Produced by Currents Right-Hand Rule No. 2. Curl the fingers of the right hand into the shape of a half- circle. Point the thumb in the direction of the conventional current I, and the tips of the fingers will point in the direction of the magnetic field B.

7 A LONG, STRAIGHT WIRE

8 Two Current-Carrying Wires Exert Magnetic Forces on One Another

9 SOLENOID

10 Right hand rule 3: Magnetic field due to a current loop The magnetic field will form like a bar magnetism's field perpendicular to the plane of the loop. The north pole can be found by wrapping your right four fingers in the direction of the current your thumb will now point in the direction of the north of the pole.

11 Electric Currents & Magnetism

12 Winter 2007UCSD: Physics 121; 200712 Electromagnet Coil By arranging wire into a loop, you can make the magnetic fields add up to a substantial field in the middle looks just like a magnet

13 Magnetic Resonance Imaging (MRI)

14 Cathode Ray Tube (CRT)

15 21.9. Magnetic Materials Most substances are nonmagnetic, the magnetism produced at the atomic level tends to cancel out. However, there are some materials, known as ferromagnetic materials, in which the cancellation does not occur for groups of approximately 10 16 – 10 19 neighboring atoms, because they have electron spins that are naturally aligned parallel to each other. This alignment results from a special type of quantum mechanical interaction between the spins. The result of the interaction is a small but highly magnetized region of about 0.01 to 0.1 mm in size, depending on the nature of the material; this region is called a magnetic domain. Each domain behaves as a small magnet with its own north and south poles. Common ferromagnetic materials are iron, nickel, cobalt, chromium dioxide, and alnico (an aluminum-nickel-cobalt alloy).

16 INDUCED MAGNETISM

17 Magnetic Grippers

18 MAGNETIC TAPE RECORDING

19 MAGLEV TRAIN magnetically levitated train

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