We talked about how the magnetic force between the paperclip and magnet were stronger than the pull of the Earth’s gravity on the paperclip, so the paperclip was able to remain in the air rather than fall back to the ground. The kids were very excited about this demonstration! Slowly lift each paperclip toward each magnet until they are all suspended. Put the ruler with magnets back above the paperclips. All the paperclips fall to the ground! We talked about why the paperclips were not going up into the air after we removed the magnets.Ĩ. After taping the strings in place below the magnets, remove the ruler and observe what happens. ![]() Tape the string in place onto the table (or whatever surface your activity is on). Take one paperclip and hold it until it’s just suspended below the first magnet. Take the paper clips and string off your dowel rod.Ħ. Suspend the ruler from two stacks of blocks, books, or other materials. (If you’re using a wooden ruler, you can tape the magnets to the top.)Ĥ. Next we explored how gravity can easily be overcome by other forces using magnets.ģ. No matter which way we tilted the dowel rod, the paperclips were still being pulled straight toward the Earth by gravity. The paperclips are being pulled toward the Earth by gravity, but they can’t fall because the string is holding them in the air. We talked about how the Earth’s gravity is what holds us and other things to the ground. Theo was amazed to observe that no matter which way he tilted the stick or how steep an angle he tilted the stick, the paperclips always pointed right down at the ground! Which direction do the paperclips point?.Lift up the dowel rod so the paperclips hang from the string. Then tie the string onto a small dowel rod or stick.Ģ. Start by tying some paperclips to pieces of string. Never allow any child under 3 to use magnets. NEVER leave any child unattended with magnets. Important: Not only are small magnets choking hazards, but magnet ingestions pose a serious threat to the health of children. Blocks, books, or other material for stacking.Metal ruler (or wooden ruler with tape).Strong magnets (Use either neodymium magnets.Earth’s gravity is what keeps you on the ground, what causes objects to fall, and is why the objects fall down rather than up! Materials for Gravity Experiment ![]() ![]() Gravity is a force that tries to pull two objects toward each other. Giving this freedom to children inspires them to make predictions and critically think about the world around them in a pressure-free setting. Grab the complete MAGNET PACK here and prep an amazing lesson plan or theme week.Whenever I invite my kids to participate in science activities, my main goal is NOT for them to master a set concept, but simply to allow them to explore the activity in their own way. Want full instructions for fantastic magnet activities? You may have seen magnetism at work with magnets on your fridge! Those magnets are attracted to the metal on your fridge and stay put because of it. Magnets don’t need to touch other objects for them to work. The force of a magnet, called magnetism, is a common force of nature, just like electricity or gravity. Magnets are a type of rock or a piece of metal that can attract or pull specific types of metal toward themselves. Most of these projects include items you will have on hand to make putting them together even easier. In this list, you’ll find activities for preschool through elementary that are easily done at home or in the classroom. The best way for kids to learn anything, and especially science, is through hands-on projects! All of these awesome magnet science projects for kids are focused on learning by doing.
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