Magnets - what can magnets pass through?
A level 3–4 teaching activity exploring the scientific requirements of a fair test in the context of magnets.
About this resource
A magnetic field is affected as it passes through different materials.
In this level 3–4 activity, students will carry out an investigation with a small number of variables to learn about the scientific requirements of a fair test.
Magnets: What can magnetism pass through?
Levels: 3-4
Nature of science achievement aims: Investigating in science
Contextual strands: Physical world
Topic: Magnetism
Mātauranga Māori
Mātauranga Māori knowledge is built through observations, traditionally of the natural world. This knowledge was handed down through generations, mostly orally, and was used to guide the way people interacted with the environment. As a scientist, your observational skills are key. Studying an item, identifying patterns, and sharing your thinking are weaved into both the Mātauranga Māori and scientific worlds.
Learning activity
For each research group (four students per group):
- A bar magnet (the stronger the better).
- Approximately ten paaper clips.
- A range of sheets of different materials of varying thickness, including: paper, card, wood, plastic, glass, aluminium, steel, and a beaker of water (fill to approx. 5mm).
- A range of sheets of different materials of uniform thickness (approx. 2 mm), including a stack of paper, card, wood, plastic, glass, aluminium, and steel.
- Investigation record sheets 1 and 2 (find these in the downloads section).
- What is a magnetic field?
- Can magnetic fields pass through air? What about through solid and liquid materials?
- What could we do to find out how different materials affect a magnetic field?
- How do scientists know what other scientists think about an idea?
- How important is it that science ideas get discussed and debated?
- What determines if an investigation is "fair"?
- What could researchers do if they recognised weaknesses or limitations in their own investigations or other scientists’ investigations?
- Divide the class into research teams, with four students per team.
- Explain that each research team will test a range of materials. By placing the material between the magnet and the paper clips, the students will test how the material affects the magnet's ability to attract paper clips (demonstrate with paper).
- Ask the students to record their predictions on Investigation Record Sheet 1 as to whether they think each material of varying thickness will affect the strength of the magnetic field and how they think each material will affect the strength of the magnetic field.
- Issue the magnets, paper clips, and materials of varying thickness to the students.
- When the investigation is complete, collect the equipment. Ask each research team to report what they did and what they found out.
- Ask, “Is it fair if the thickness of the material is not the same?” Explain to the students that the aim is to repeat the investigation to make it even more ‘fair’ than before. Ask the students to repeat their investigation using different materials of uniform thickness. Students record their predictions and observations on Investigation Record Sheet 2.
- Do you think your second investigation was more "fair" than your first investigation? Why?
- What factors are needed for an investigation to be determined ‘fair’?
- How useful was reporting back to the class? Did you learn anything from other groups? Do you think your comments helped any other groups? What opportunities do you think scientists have to look at each other’s work?