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Magnetism The Magnetic Force x x x v F B q  v F B q   v F = 0 B q.

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Presentation on theme: "Magnetism The Magnetic Force x x x v F B q  v F B q   v F = 0 B q."— Presentation transcript:

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2 Magnetism The Magnetic Force x x x v F B q  v F B q   v F = 0 B q

3 Bar Magnet l Bar magnet... two poles: N and S Like poles repel; Unlike poles attract. l Magnetic Field lines: (defined in same way as electric field lines, direction and density)

4 Magnetic Field Lines of a bar magnet Electric Field Lines of an Electric Dipole

5 Magnetic Monopoles l Perhaps there exist magnetic charges, just like electric charges. Such an entity would be called a magnetic monopole (having + or - magnetic charge). l How can you isolate this magnetic charge? Cut a bar magnet in half: Many searches for magnetic monopoles No monopoles have ever been found: NS NNSS Even an individual electron has a magnetic “dipole”!

6 Source of Magnetic Fields? l What is the source of magnetic fields, if not magnetic charge? l Answer: electric charge in motion! çe.g., current in wire surrounding cylinder (solenoid) produces very similar field to that of bar magnet. l Therefore, understanding source of field generated by bar magnet lies in understanding currents at atomic level within bulk matter. Orbits of electrons about nuclei Intrinsic “spin” of electrons (more important effect) ferromagnetic materials Iron, cobalt, nickel

7 Magnetic Field Units l F = q v x B l SI units: N-s/C-m = Tesla l 1 Tesla = 10,000 Gauss l Earth’s magnetic field is approximately 0.5 Gauss l Refrigerator magnets are about 100 Gauss l Superconducting electromagnets can be as much as 40 Tesla Nikola Tesla 1856- 1943 Carl Friedrich Gauss 1777-1855

8 Earth’s Magnetic Field l Earth’s magnetic field is similar to that of a bar magnet tilted 11 o from Earth’s spin axis l Earth’s north geographic pole is actually south magnetic pole The movement of Earth's north magnetic pole across the Canadian arctic, 1831--2001. Credit: Geological Survey of Canada.

9 Magnetic Field Reversal l Evidence for 171 magnetic field reversals during the past 71 million years has been reported. l Earth’s magnetic field is weakening l interval between reversals of Earth’s magnetic field can be as short as 5,000 or as long as 50 million years l Simulation of reversal Simulation of reversal l Geodynamo Site Geodynamo Site

10 Earth’s Inconsistent Magnetic Field Earth’s Inconsistent Magnetic Field

11 Videos l Magnetic Field Magnetic Field l Magnetic Field of Bar Magnet Magnetic Field of Bar Magnet l Magnetic Field of Wire Magnetic Field of Wire l Magnetic Field of a Solenoid Magnetic Field of a Solenoid l Magnetic Field of Toroid Magnetic Field of Toroid l Tracking Variations in Earth’s Magnetic Field Tracking Variations in Earth’s Magnetic Field

12 How does a magnet attract screws, paper clips, refrigerators, etc., when they are not “magnetic”? Magnetic Attraction The materials are all “soft” ferromagnets. The external field temporarily aligns the domains so there is a net dipole, which is then attracted to the bar magnet. - The effect vanishes with no applied B field - It does not matter which pole is used. End of paper clip S N

13 IBM introduced the first hard disk in 1957, when data usually was stored on tapes. It consisted of 50 platters, 24 inch diameter, and was twice the size of a refrigerator. It cost $35,000 annually in leasing fees (IBM would not sell it outright). It’s total storage capacity was 5 MB, a huge number for its time!

14 Magnetic Fields We know about the existence of magnetic fields by their effect on moving charges. The magnetic field exerts a force on the moving charge. l What is the "magnetic force"? How is it distinguished from the "electric" force? a) magnitude:  to velocity of q b) direction:  to direction of q ’s velocity c) direction:  to direction of B B is the magnetic field vector q F v mag experimental observations about the magnetic force:

15 Lorentz Force The force F on a charge q moving with velocity v through a region of space with electric field E and magnetic field B is given by: F x x x v B q  v B q F = 0  v B q F     Bvq F  

16 Three points are arranged in a uniform magnetic field. The B field points into the screen. 1) A positively charged particle is located at point A and is stationary. The direction of the magnetic force on the particle is: a) right b) left c) into the screen d) out of the screen e) zero 2) The positive charge moves from point A toward B. The direction of the magnetic force on the particle is: a) right b) left c) into the screen d) out of the screen e) zero

17 3) The positive charge moves from point A toward C. The direction of the magnetic force on the particle is: a) up and right b) up and left c) down and right d) down and left

18 Magnetic Force: If v = 0  F = 0. If then F = qvB If v is up, and B is into the page, then F is to the left.

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