Electromagnets

When there is a current in a wire, a circular is produced around the wire. This magnetic field can the needle of a magnetic compass. The strength of the magnetic field is greater:

closer to the wire
if the current is increased

Wire runs vertically, current flowing bottom to top. Magnetic field rotates anticlockwise. Second wire runs vertically, current flowing top to bottom. Magnetic field rotates in a clockwise direction. — Figure caption,
Magnetic fields around a wire carrying an electric current

Solenoids

A is a long coil of wire. When a direct electric current is passed through it, the shape of the magnetic field is very similar to the field of a bar magnet. The field inside a solenoid is strong and uniform. The small magnetic fields caused by the current in each turn of the coil add together to make a stronger overall magnetic field.

Current flows towards you in the top five wires, away from you in bottom five. Magnetic fields flow anti-clockwise around top five wires, clockwise around bottom. North pole right. South pole left. — Figure caption,
A solenoid, shown here in cross section, has a stronger electromagnetic field than a single straight wire

The strength of the magnetic field around a solenoid can be increased by:

increasing the number of turns on the coil
increasing the current
placing an iron core inside the solenoid

The use of an iron core makes the solenoid into an which can be switched on and off.

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Magnetic fields

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What are magnetic fields? - OCR 21st CenturyElectromagnets

Electromagnets

Solenoids

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