The Motor Effect (Oxford AQA IGCSE Combined Science Double Award)

Revision Note

The Motor Effect

Extension Tier only

  • The motor effect occurs when:

A wire with current flowing through it is placed in a magnetic field and experiences a force

  • This effect is a result of two interacting magnetic fields

    • One is produced around the wire due to the current flowing through it

    • The second is the external magnetic field into which the wire is placed, between two magnets for example

  • When the current-carrying conductor is placed in a magnetic field it cuts the lines of magnetic force

  • As a result of the interactions of the two magnetic fields, the wire will experience a force

Magnetic fields interacting

The circular magnetic field of a wire interacts with the uniform external field of two opposite poles, producing a force IGCSE & GCSE Physics revision notes
The magnetic field between opposite poles of magnets interacts with the magnetic field produced around a current-carrying wire

Force on a current-carrying wire in a magnetic field

A current-carrying wire in a uniform field experiences a force, for GCSE & IGCSE Revision Notes
The motor effect is a result of two magnetic fields interacting to produce a force on the wire

Factors affecting force

  • The size of the force exerted by the magnetic fields can be increased by:

    • Increasing the amount of current flowing through the wire

      • This will increase the magnetic field around the wire

    • Using stronger magnets

      • This will increase the strength of the magnetic field between the poles of the magnet

    • Increasing the length of wire carrying current in the uniform field

      • A greater amount of magnetic flux is interacting so the force will be greater

  • If the external magnetic field and wire are parallel there will be no interaction between the two magnetic fields and therefore no force produced

Examiner Tips and Tricks

It is key to remember that the magnetic force on the conductor is maximum when the current is perpendicular to the field lines.  The force is zero when the current and the external field are parallel.

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