Investigating the Strength of Electromagnets (Oxford AQA IGCSE Physics)
Revision Note
Written by: Ann Howell
Reviewed by: Caroline Carroll
Investigating Electromagnets
Aim of the experiment
The aim of this experiment is to investigate the factors that determine the strength of an electromagnet
Equipment
Equipment List
Equipment | Purpose |
---|---|
Iron nail (Not steel) | To create the iron core in the electromagnet |
Length of insulated wire | To create the coils in the electromagnet |
Variable power supply 0 - 6 volts | To provide the current in the wire to generate the electromagnet |
Ammeter | To measure the amount of current in the coils |
Paper clips | To be picked up by the electromagnet to measure its strength |
A switch | To turn the electromagnet on and off |
Crocodile clips | To attach the coils of wire to the circuit |
Clamp stand, boss and clamp | To hold the electromagnet in place |
Top pan balance (scales) | To measure the mass of the paper clips |
Method
Equipment for investigating the factors that determine the strength of an electromagnet
Experiment 1
Variables
Independent variable = Current, I
Dependent variable = Number of paper clips picked up, P
Control variables:
Number of turns, N
Method
Set up the circuit, place the variable power supply on zero and close the switch
Gradually increase the voltage from the power supply until there is just enough current flowing through the electromagnet for it to hold onto one paper clip. Record the value of the current in the table of results
Now increase the current until the electromagnet will just hold two paper clips. The paper clips should be supported end to end and not side by side as shown in the diagram. Record the value of the current in the table of results
Repeat these steps until the electromagnet can just hold six paper clips
Repeat the entire experiment at least three times
Example Results Table
Number of paper clips | Mass of paper clips / g | Current 1 / A | Current 2 / A | Current 3 / A | Average current / A |
1 | |||||
2 | |||||
3 | |||||
4 | |||||
5 | |||||
6 |
Analysis of results
An example of a mass-current graph
Experiment 2
Variables
Independent variable = Number of turns, N
Dependent variable = Number of paper clips picked up, P
Control variables:
Current, I
Method
Wind 50 turns of the copper wire into coils around the iron nail. Leave enough wire at each end to connect to the rest of the circuit
Set up the circuit, place the variable power supply on zero and close the switch
Secure the nail and coils in the clamp stand
Set up the circuit, put the variable power supply on zero and close the switch
Gradually increase the voltage from the power supply until there is just enough current flowing through the electromagnet for it to hold onto one paper clip. Record the value of the current in the table of results
Now wind 100 turns of the wire onto the nail
Adjust the power supply so that the current is the same as before and record the number of paper clips the electromagnet can now support
Repeat these steps for 150 and 200 turns
Repeat the entire experiment at least three times
Example Results Table
Number of turns | Current / A | Number of paper clips 1 | Number of paper clips 2 | Number of paper clips 3 | Average number of paper clips | Average mass of paper clips |
50 | ||||||
100 | ||||||
150 | ||||||
200 |
Analysis of results
An example of a mass-number of turns graph
Evaluating the experiment
Consider any systematic errors or random errors
Systematic errors:
Make sure the measurements on the ammeter and pan balance are taken at eye level to avoid parallax error (assuming both are scales with needles, this does not apply to digital equipment)
Ensure both the pan balance and ammeter are zeroed before taking measurements
Random errors:
The precision of the experiment is improved with the use of a digital ammeter and not an analogue one
Wait a few seconds for the paper clip to hold after it is added, before turning off the electromagnet
Make sure the paper clips are added to the same point on the nail each time
Safety considerations
Make sure that the coil of wire does not get too hot – if it does, switch it off immediately
Place a mat under the electromagnet to catch any falling paper clips
Stand up, so it is easier to add the paper clips to the electromagnet
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