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Transcript
Basic Magnetism • Magnets occur naturally within rocks like lodestone. The word magnet is derived form a place called Magnesia because magnetic rocks are common there. Types of Magnets Permanent – retain magnetism permanently Types of Magnets 2. Electromagnets – when an iron bar is wrapped with a current carrying wire, the bar becomes a magnet. It ceases to be magnetic when the current is off. Types of Magnets • 3. Solenoid – A coil of wire itself exhibits magnetism when the current is on. Lines of Force • In all cases, the magnet produces magnetic lines of force that attract or repel other magnets. The magnetic lines of force form a magnetic field. All lines are said to originate at the N pole and travel to the S. (You may also consider the lines to point in the direction that an N pole test magnet would be pushed.) Lines of Force N S • The Greeks found a rock (magnetite or lodestone) that attracted iron. The Chinese used this to invent compasses in the 11th century. • A few materials (iron, steel) are strongly attracted to magnets. Others are less strongly (cobalt, and nickel). Types of Magnetism • Ferromagnetic – materials with a strong magnetic attraction. (iron, steel) • Paramagnetic – materials with a slight magnetic attraction. (wood , aluminum, platinum, oxygen) • Diamagnetic – weakly repelled by strong magnets. (zinc, bismuth, sodium chloride, gold) Theory of Magnetism • Magnetism is a property of a charge in motion. The electrons revolve around the nucleus, causing the magnetism. The electrons also spin on their own axis (like the Earth), producing a magnetic field. However, when the electrons are paired, the fields cancel each other out. Domains • Domains are regions of magnetic substances that have a free, spinning electron. When these domains line up, the substance becomes a magnet. Evidence that supports the domain theory 1. Rubbing a nail with a magnet turns the nail into a magnet. 2. Rubbing a test tube of iron filings produces North & South poles that can be seen with a compass. 3. When temporary magnets are hit, they lose their magnetism. Evidence that supports the domain theory 4. Breaking a magnet in two, results in 2 magnets with North & South poles. S S N N Evidence that supports the domain theory 5. The magnetism of a bar magnet can be reversed by a strong external magnetic field.
