How Does the Number of Coils on an Electromagnet Affect Its Strength?
By: Tasha • Research Paper • 772 Words • February 26, 2010 • 3,956 Views
Join now to read essay How Does the Number of Coils on an Electromagnet Affect Its Strength?
Science Coursework: How does the number of coils on an
electromagnet affect its strength?
Aim: - To establish whether a variation in the number of coils will affect an electromagnet's strength.
Scientific Knowledge: -
An iron core wrapped in a series of coils of insulated wire and then connected to a battery, will enable the core to pick up paper clips. This is because the current emitted from the battery to the coils magnetises the nail. This is known as an electromagnet. The current passing through an electromagnet produces a magnetic field. Therefore, the more turns of the coil you have, the greater the magnetic field and the stronger the electromagnet. This will mean more paper clips being picked up by the nail. The strength of an electromagnet can also be altered by varying the current or voltage. The more induced voltage, the stronger the electromagnet. An alternative way to strengthen an electromagnet is to replace the core with a "soft" iron core.
Prediction: -
An increase in the number of coils applied to the iron nail will cause an increase in the number of paperclips being picked up. (a positive correlation between the two variables)
This prediction derived from the scientific knowledge above -
'Therefore, the more turns of the coil you have, the greater the magnetic field and the stronger the electromagnet.'
Apparatus: -
Iron nail (1)
Paperclips (several)
Power supply (1)
Coil (1)
Method: -
The method was relatively systematic. We first allocated various people amongst our group to collect different equipment such as the iron nail, paperclips, coil and power supply. Following that, we connected everything securely and wrapped the coil five times around the nail. We then switched on the power supply and set the voltage to 4V. We tested the number of paper clips the nail would pick up, each time turning the power supply off and winding the coil five more times consecutively.
Fair test procedures: -
In the investigation, we controlled three main variables to ensure that our results were as accurate as possible.-
1) The voltage
We sustained the voltage to 4V all the way throughout the investigation. This would make the test more fair.
2) Distance between each coil
We made sure that each coil was 1.5 centimetres apart so that the current would flow evenly along the nail. This would also mean that the power of the magnetic fields around the iron nail were equal - each part of the nail would have the same magnetism.
3) scales
For precision, we repeated the investigation again for comprehensive analysis and more accuracy.
Results: -
First Results
No. of coils No. of paperclips supported
5 4
10 11
15 16