Home Store Project Ideas Project Guide Ask An Expert Blog Careers Teachers Parents Students

Hovercraft: A Multi-Terrain Vehicle

| 1 Comment

Planes, trains, and automobiles... all great ways to get around. But when it comes to exploring cool travel, the hovercraft shines with its ability to effortlessly glide across land or water. Make one at home to explore the aerodynamics at work!

DIY hovercraft science is perfect for Star Wars fans or kids who love any kind of vehicle. With some very low-tech materials like paper plates, foam board, or old compact discs, your students can build their own and learn more about how a hovercraft works. Get some balloons and let your students experiment with design and aerodynamics principles, and then let your driveway hovercraft races begin!

If you get some great in-air photos, please share them with us. We would love to see your family science hovercraft exploration!

Remember Luke's land speeder in the original Star Wars trilogy? Remember the way it skimmed across Tatooine's surface of sand as he went in search of R2-D2 and found Obi-Wan? While not necessarily a textbook example of hovercraft technology, the story set in a "galaxy far, far away" did a memorable job in 1977 of showing the potential—and alluring 'glide'—of an air-cushion vehicle (ACV). While the big-screen Star Wars version may have lodged the transportation mode in the public imagination, the first hovercraft, invented by Christopher Cockerell, predates the saga by almost twenty years.

Touted as an environmentally friendly design—it travels mostly above the surface—hovercraft are often associated with water, in part because they have become linked with rescue vehicles. While they are amphibious, hovercraft are not limited to water. Instead, hovercraft are multi-terrain vehicles. The DiscoverHover website describes them as "boat-like vehicles, but they are much more than just a boat, because they can travel over not only water, but grass, ice, mud, sand, snow and swamp as well." The craft's ability to ride on a self-generated and self-maintained cushion of air as it transitions between different terrain is at the heart of the vehicle's innovative aerodynamic design. When hovering, the hull of the craft, which can also float, is lifted off the surface and propelled by a cushion of air that is trapped under the vehicle by a structural "skirt" element.

DIY Hovercraft

Exploring aeronautics principles and design issues related to hovercraft doesn't require a factory, heavy machinery, power tools, or a sophisticated motor. You don't even need wheels! Using materials you probably have around the house, your students can park the die-cast cars for the day and embark on an afternoon's worth of hovercraft racing with their own balloon-powered vehicles.

The simplest hovercraft model can be constructed from a paper plate and a balloon. This model offers a hands-on look at how the craft moves, but repeated travels will probably put a dent in the design. Using foam board instead of a paper plate may increase the longevity of the model. Though thicker than a paper plate, foam board is sturdier and yet still lightweight, an important factor in DIY hovercraft success. If you have a sheet of Elmer's foam board tucked away in a craft closet, your young engineers can experiment with the shape of the craft. Does a circular hovercraft fly farther than a rectangular one? What diameter of circle works best? What is the relationship between the size of the circle and the size of the balloon? Does a foam board hovercraft fly as far as one made from a paper plate? What kinds of modifications can you make to the center where the balloon is stationed?

Recycled compact discs can also be used to make hovercrafts. Pass over a few old CDs, an equal number of drinking bottle valves, some glue, and a pile of balloons in varying sizes, and let your young engineers loose! If you're ready for the races to begin, the "How Does a Hovercraft Work?" project has the blueprint for designing your own miniature hovercraft. You can find additional family-friendly guidance in the CD Hovercraft cartoon from Howtoons. Figuring out what makes the craft hover longer or cover more ground is part of the fun—and part of the science exploration! Make sure to have the video camera ready for some short film footage, just in case there's a finish that's too close to call!

Going Bigger

While building and testing miniature hovercrafts is a great summer activity, especially for elementary (and younger) students, more industrious models are certainly possible and can be excellent under-cover summer projects, perfect for tinkering in the garage. The "Riding on Air—Build a Real Hovercraft" project outlines one approach to creating a leaf-blower powered hovercraft. As part of your background reading, tune in to the DragonFly episode in which Rachel and Sara build their own hovercraft—and troubleshoot problems they encounter on grass. To see another life-size example, check out this video from Howtoons' Saul Griffith.

How well will your hovercraft glide? Put it to the test!

Elmer's Products is the official classroom sponsor for Science Buddies.

1 Comment

i like this project because it is a fun and interesting project. :)

Science Buddies Science Activities

Science Buddies and Autodesk for Student STEM Exploration

Pi Day is a great excuse to make some math- and food-related Pi puns and bake up a tasty dessert. We suggest you throw a bit of science into the mix as well!

The project display board is how you present your project at the science fair. What goes into a well-organized and effective project display board? Check our easy-to-follow guide.

Dropping the freezing point of water can help keep roads free of ice, making them safer for driving. What are the best tools for the job?

School and family science weekly spotlight: explore the relationship between friction and surface with a fun activity.

Students in an 8th grade class designed their own playgrounds using Autodesk Inventor software for 3D modeling.

Great hands-on science projects and activities for Engineers Week!

Your Science!
What will you explore for your science project this year? What is your favorite classroom science activity? Email us a short (one to three sentences) summary of your science project or teaching tip. You might end up featured in an upcoming Science Buddies newsletter!

You may print and distribute up to 200 copies of this document annually, at no charge, for personal and classroom educational use. When printing this document, you may NOT modify it in any way. For any other use, please contact Science Buddies.