Magnetic Effect of a Current (Oxford AQA IGCSE Physics)

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Magnetic Field of a Current-Carrying 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 magnetic field is made up of concentric circles in a plane perpendicular to the wire
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

Magnetic field lines around a current-carrying wire

Current in a wire travels up the page. Magnetic field lines are drawn around the wire on a perpendicular plane, for IGCSE & GCSE Physics revision notes — **Diagram showing the magnetic field around a current-carrying wire**

The right-hand thumb rule can be used to work out the direction of the magnetic field

Right-hand thumb rule

Thumb points upwards, fingers curl to make a fist. When the thumb points in the direction of the wire, the fingers point in the direction of the circular field lines. — **The right-hand thumb rule shows the direction of current flow through a wire and the direction of the magnetic field around the wire**

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

Increasing the current through the wire

The field lines around a wire become further apart away from the wire. The greater the current through the wire then the greater the magnetic field, for IGCSE & GCSE Physics revision notes — **The greater the current, the stronger the magnetic field. This is shown by more concentrated field lines.**

Reversing the direction in which the current flows through the wire will reverse the direction of the magnetic field
- This is made apparent by changing the direction of the thumb in the right-hand rule

Changing current direction

Side and top view of current and the magnetic field produced. Where the current flowing out of the page is shown with a dot and into the page with a cross, for IGCSE & GCSE Physics revision notes — **Side and top view of the current flowing through a wire and the magnetic field produced**

Exam Tip

When drawing these field lines around a wire, make sure it is clear the lines become further apart with increasing distance from the wire, it is better to exaggerate this for the examiner.

Magnetic Field of a Solenoid

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

Magnetic field around a loop of wire

A magnetic field is present around a loop of current-carrying wire, for IGCSE & GCSE Physics revision notes — **Diagram showing the magnetic field around a flat circular coil**

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

Magnetic field around a solenoid

A solenoid is a cylindrical coil of wire which has a magnetic field similar to that of a bar magnet. Arrows on the field lines show the direction from the north pole to the south pole, for IGCSE & GCSE Physics revision notes — **Magnetic 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

Direction of current flow in a solenoid

The current at the north pole of a solenoid flows anti-clockwise and at the south pole clockwise, for IGCSE & GCSE Physics revision notes — **Poles of a Solenoid**

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