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Electric currents and magnetism

Electric current is the source of all magnetism.

Two atomic models that describe the relationship between the movement of electrons and magnetism.
(a) In the planetary model of the atom, an electron orbits a nucleus, forming a closed-current loop and producing a magnetic field with a north pole and a south pole. (b) Electrons have spin and can be crudely pictured as rotating charge, forming a current that produces a magnetic field with a north pole and a south pole. Neither the planetary model nor the image of a spinning electron is completely consistent with modern physics. However, they do provide a useful way of understanding phenomena.

Phet explorations: magnets and electromagnets

Explore the interactions between a compass and bar magnet. Discover how you can use a battery and wire to make a magnet! Can you make it a stronger magnet? Can you make the magnetic field reverse?

Magnets and Electromagnets

Test prep for ap courses

A bar magnet is oriented so that the north pole of the bar magnet points north. A compass needle is placed to the north of the bar magnet. In which direction does the north pole of the compass needle point?

  1. North
  2. East
  3. South
  4. West

(a)

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Assume for simplicity that the Earth’s magnetic north pole is at the same location as its geographic north pole. If you are in an airplane flying due west along the equator, as you cross the prime meridian (0° longitude) facing west and look down at a compass you are carrying, you see that the compass needle is perpendicular to your direction of motion, and the north pole of the needle dipole points to your right. As you continue flying due west, describe how and why the orientation of the needle will (or will not) change.

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Describe how the magnetic domains in an unmagnetized iron rod will respond to the presence of a strong external magnetic field.

  1. The domains will split into monopoles.
  2. The domains will tend to align with the external field.
  3. The domains will tend to orient themselves perpendicular to the external field.
  4. The domains will tend to align so as to cancel out the external field.

(b)

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Describe what steps must be undertaken in order to convert an unmagnetized iron rod into a permanently magnetized state. As part of your answer, explain what a magnetic domain is and how it responds to the steps described.

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Iron is ferromagnetic and lead is diamagnetic, which means its magnetic domains respond in the opposite direction of ferromagnets but many orders of magnitude more weakly. The two blocks are placed in a magnetic field that points to the right. Which of the following best represents the orientations of the dipoles when the field is present?

Iron Lead
(a)
(b)
(c)
(d)

(b)

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A weather vane is some sort of directional arrow parallel to the ground that may rotate freely in a horizontal plane. A typical weather vane has a large cross-sectional area perpendicular to the direction the arrow is pointing, like a “One Way” street sign. The purpose of the weather vane is to indicate the direction of the wind. As wind blows past the weather vane, it tends to orient the arrow in the same direction as the wind. Consider a weather vane’s response to a strong wind. Explain how this is both similar to and different from a magnetic domain’s response to an external magnetic field. How does each affect its surroundings?

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Section summary

  • Magnetic poles always occur in pairs of north and south—it is not possible to isolate north and south poles.
  • All magnetism is created by electric current.
  • Ferromagnetic materials, such as iron, are those that exhibit strong magnetic effects.
  • The atoms in ferromagnetic materials act like small magnets (due to currents within the atoms) and can be aligned, usually in millimeter-sized regions called domains.
  • Domains can grow and align on a larger scale, producing permanent magnets. Such a material is magnetized, or induced to be magnetic.
  • Above a material’s Curie temperature, thermal agitation destroys the alignment of atoms, and ferromagnetism disappears.
  • Electromagnets employ electric currents to make magnetic fields, often aided by induced fields in ferromagnetic materials.
Practice Key Terms 7

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Source:  OpenStax, College physics for ap® courses. OpenStax CNX. Nov 04, 2016 Download for free at https://legacy.cnx.org/content/col11844/1.14
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