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Magnetism and Electromagnetism

Discover the fascinating world of magnetism and electromagnetism. Learn about magnetic fields, poles, domains, materials, and more. Explore how electricity and motion create magnetic forces. Unleash the power of electromagnets and delve into electromagnetic induction.

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Magnetism and Electromagnetism

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  1. Magnetism and Electromagnetism

  2. Magnetism = the phenomenon of physical attraction for iron observed in magnets, inseparably associated with moving electricity and characterized by fields of force Magnetic force increases as magnets move closer together!

  3. A magnetic field surrounds a magnet and is strongest at the poles; it is produced by the motion of electric charge. • Both the orbital & spinning motion of every electron in an atom produce magnetic fields.

  4. Magnetic field lines: arrows drawn from north to south poles representing the magnetic field. • Number of field lines indicates the relative strength of the magnet

  5. All magnets have a north pole and a south pole • Like poles repel.Unlike poles attract

  6. A compass needle is a small bar magnet that can freely rotate • A compass needle always points north, or rather is north-seeking

  7. Interesting fact… • The northern lights (aurora borealis) & southern lights (aurora australias) are results from the interaction between the solar wind and earth’s magnetic field (makes the air glow).

  8. not magnetized magnetized Magnetic Domains • Microscopic groups of atoms with aligned magnetic poles

  9. Magnetic materials • Materials in which the domains will line up in order to form a magnetic field • Examples: iron, cobalt, and nickel

  10. N S N S N S What happens when you cut a magnet in half?

  11. Permanent magnets • Material that keeps its magnetic properties, even when it is not close to other magnets • Made by placing a magnetic material in a strong magnetic field, which causes the domains to remain aligned.

  12. The domains of temporary magnets are only aligned when the material is influenced by a magnetic field. (ex. Refrigerator, white board)

  13. Electromagnet – temporarymagnet that is created by electric current flowing in a wire, usually in the form of a wire coiled around a piece of iron Magnetic field is present only when current is flowing in the wire coil

  14. Strength of an electromagnet depends on three factors: • amount of current in the wire • amount of iron or steel in the core • number of turns in the coil

  15. Producing Electric Current • Electromagnetic induction – the production of an electric current by moving a loop of wire through a magnetic field or moving a magnet through a wire loop (which changes the magnetic field near the conductor; no battery!)

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