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Grade 10 Exam  >  Grade 10 Notes  >  Physics for Grade 10  >  Magnetic Fields in Wires & Solenoids

Magnetic Fields in Wires & Solenoids | Physics for Grade 10 PDF Download

Magnetic Field Around a Wire

  • When a current flows through a conducting wire a magnetic field is produced around the wire
    • A conducting wire is any wire that has current flowing through it
  • The shape and direction of the magnetic field can be investigated using plotting compasses
    • The compasses would produce a magnetic field lines pattern that would like look the following

Diagram showing the magnetic field around a current-carrying wireDiagram showing the magnetic field around a current-carrying wire

  • The magnetic field is made up of concentric circles
    • A circular field pattern indicates that the magnetic field around a current-carrying wire has no poles
  • As the distance from the wire increases the circles get further apart
    • This shows that the magnetic field is strongest closest to the wire and gets weaker as the distance from the wire increases
  • The right-hand thumb rule can be used to work out the direction of the magnetic field

The right-hand thumb rule shows the direction of current flow through a wire and the direction of the magnetic field around the wireThe right-hand thumb rule shows the direction of current flow through a wire and the direction of the magnetic field around the wire

  • Reversing the direction in which the current flows through the wire will reverse the direction of the magnetic field

Side and top view of the current flowing through a wire and the magnetic field producedSide and top view of the current flowing through a wire and the magnetic field produced

  • If there is no current flowing through the conductor there will be no magnetic field
  • Increasing the amount of current flowing through the wire will increase the strength of the magnetic field
    • This means the field lines will become closer together

Magnetic Field Around a Solenoid

  • When a wire is looped into a coil, the magnetic field lines circle around each part of the coil, passing through the centre of it

Diagram showing the magnetic field around a flat circular coilDiagram showing the magnetic field around a flat circular coil

  • To increase the strength of the magnetic field around the wire it should be coiled to form a solenoid
  • The magnetic field around the solenoid is similar to that of a bar magnet

Magnetic Fields in Wires & Solenoids | Physics for Grade 10Magnetic field around and through a solenoid

  • The magnetic field inside the solenoid is strong and uniform
  • One end of the solenoid behaves like the north pole of a magnet; the other side behaves like the south pole
    • To work out the polarity of each end of the solenoid it needs to be viewed from the end
    • If the current is travelling around in a clockwise direction then it is the south pole
    • If the current is travelling around in an anticlockwise direction then it is the north pole
  • If the current changes direction then the north and south poles will be reversed
  • If there is no current flowing through the wire then there will be no magnetic field produced around or through the solenoid

Poles of a SolenoidPoles of a Solenoid

Magnetic Field Strength Around a Solenoid

  • The strength of the magnetic field produced around a solenoid can be increased by:
    • Increasing the size of the current which is flowing through the wire
    • Increasing the number of coils
    • Adding an iron core through the centre of the coils
  • The iron core will become an induced magnet when current is flowing through the coils
  • The magnetic field produced from the solenoid and the iron core will create a much stronger magnet overall

Electromagnets

  • An electromagnet is a solenoid with an iron core
  • The magnetic field produced by the electromagnet can be switched on and off
    • When the current is flowing there will be a magnetic field produced around the electromagnet
    • When the current is switched off there will be no magnetic field produced around the electromagnet
  • The strength of the electromagnet can be changed by:
    • Increasing the current will increase the magnetic field produced around the electromagnet
    • Decreasing the current will decrease the magnetic field produced around the electromagnet

Examples of Electromagnetic Devices

  • Electromagnets are used in several devices, for example, a scrapyard crane or an electric bell
  • Scrapyard cranes:
    • When the electromagnet is switched on it will attract magnetic materials
    • When the electromagnet is switched off it will drop the magnetic materials
  • Electric bell:

Animation showing an electric bell in operationAnimation showing an electric bell in operation

When the button K is pressed:

  • A current passes through the electromagnet E creating a magnetic field
  • This attracted the iron armature A, causing the hammer to strike the bell B
  • The movement of the armature breaks the circuit at T
  • This stops the current, destroying the magnetic field and so the armature returns to its previous position
  • This re-establishes the circuit, and the whole process starts again

Exam Tip

When trying to figure out how an electromagnetic device works:

  1. Look for a coil / solenoid - this is going to act as an electromagnet
  2. Look for a piece of iron - this will be attracted to the solenoid
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