Concord Consortium
Direction of Force Around a Van de Graaff—Negatively Charged
Learn about the direction of magnetic force with a very attractive interactive! Young physicists move a positively charged object around a negatively charged Van de Graaff generator and observe the direction of the forces present. A...
Curated OER
Creating Magnetic Forces
Young scholars discover magnetic forces. In this magnetic experiment instructional activity, students explore magnetism. Young scholars conduct experiments and discover magnetic poles and magnetic strength.
Concord Consortium
Charge Intensity and Electric Force
Looking for a quick way to supercharge your electricity and magnetism unit? Assign a very responsive interactive designed to illustrate the relationship between charge, electric field, and the resulting forces. Learners experiment with...
Curated OER
Magnetism
This set of seven activities attracts physical science stars to concepts concerning magnetism. Pupils play with a lodestone, magnets, needles, and iron filings to understand magnetic forces, fields, and applications. If you are new to...
Concord Consortium
Electrostatics: Maze Game
Ready to have an a-MAZE-ing time teaching electrostatics? Introduce physical science superstars to an engaging resource that tests their knowledge of attractive and repulsive forces. Pupils change the charge of a ball to guide it through...
Teach Engineering
Force on a Current Carrying Wire
What do electrical currents have to do with an MRI? Using a simple wire setup and a magnet, class members explore forces used in an MRI by investigating the magnetic force acting on a wire carrying a current.
Concord Consortium
Direction of Force on Charged Objects
Make your unit on magnetism a force to be reckoned with! Physical science scholars examine the direction of force on charged objects through a simple interactive. Pupils control the charge of the stationary object, then observe how it...
Curated OER
Magnetism and the Magnetic Force
Fourth graders investigate magnetism and the magnetic force.
Concord Consortium
Direction and Strength of Force in Electric Fields
Finally, a helpful tool for modeling electric fields! Young physicists explore the unseen world of magnetism via a simple interactive. Individuals move a charged object around a stationary object and see the strength and directions of...
Laboratory for Atmospheric and Space Physics
The Solar Wind Tunnel
The winds of change are blowing in our very own solar system! But what makes some heavenly bodies more affected by solar winds than others? Pupils discover the concept of magnetic forces at work in space in this attractive interactive,...
Curated OER
Permeability (Magnetism)
Students investigate magnetic permeability and saturation. In this physics lesson plan, students explain how current carrying wire coils create magnetic forces. They interpret normal magnetization curves.
PHET
Mapping the Field of Multiple Dipole Magnets
So you built a magnetometer, now what? High school scientists use their magnetometer made in a previous lesson to map the union of magnetic fields of dipole magnets. They experiment with different alignments and draw conclusions about...
Concord Consortium
Visualizing Electric Fields and Forces
Shock your class with an exciting interactive about electric fields! Physical science superstars visualize the transparent world of electric fields by changing the charge on a stationary object. They then observe changes in the resulting...
Curated OER
Coulomb's Law and Induced Polarization
Engage your aspiring physicists in a series of lab activities directied at demonstrating the behavior of electric force. In completing these exercises, learners will explore Coulomb's and Gauss's Laws. Well-written directions to four...
Curated OER
Magnetic Field
Students explore how compass and Gauss meter detect a magnetic field. In this physics lesson, students build their own Gauss meter and sensor based on given procedure. They cite real world applications of magnetism.
Curated OER
Magnetic Levitation
Students conduct a series of experiments on magnetic levitation. In this physics lesson, students discover how Maglev trains operate. They explain how magnetism make even simple objects levitate.
Curated OER
Magnetism in Action
Third graders experiment with magnetic force and magnetic fields. They examine how magnetic forces can act through a distance.
LABScI
The Separation Lab: Candy Colors
There's no better motivator than candy! An engaging activity has pupils explore methods for separating mixtures. A two-part lab first explores methods of separation based on size and magnetism. The second activity introduces learners to...
Rice University
College Physics for AP® Courses
Take a look at an organized physics course. The 34-section electronic textbook covers material in AP® Physics 1 and 2. Teachers use the text to supplement lectures and have the class work through the labs. Each section contains multiple...
Curated OER
Using Magnetotactic Bacteria to Study Natural Selection
Students observe bacteria that are able to orient themselves using the Earth's magnetic field.They comprehend the difference between anaerobic and aerobic organisms. Students can tell the difference of the shape of magnetic force field...
Curated OER
What is Magnetism?
Students investigate magnetism. In this physics lesson, students create a KWL chart about magnetism and research various suggested websites to find out more about magnetism. Students log on to the "BrainPOP" website and view a short...
Curated OER
Attract or Repel?
Opposites attract with a fun science experiment on magnets. With a short paragraph on background knowledge, the lab sheet prompts third and fourth graders to choose which pairs of magnets will attract, and which pairs will repel. A...
Concord Consortium
Opposites Attract
Whether they pull together or push away from one another, magnets are sure-fire pupil pleasers! Take their study of magnetism to a new level with a fun interactive. Individuals control the polarity of two spheres to observe attractive or...
Concord Consortium
Target Game—Free Play
Challenge your classes to use electric fields to hit a target. Scholars place positively and negatively charged particles on a game board to direct a charged particle to a target. They can choose to view the electric field and force on...