/-/https/www.sciencebuddies.org/cdn/Files/21464/5/sb-logo.png){kind=logo}
/-/https/www.sciencebuddies.org/cdn/Files/21464/5/sb-logo.png){kind=logo}
Sixth Grade, Aerodynamics & Hydrodynamics Projects, Lessons, Activities (55 results)
|
Select a resource
Sort by
|
If you have an air hockey table, you know that the puck floats on a thin cushion of air when the table is turned on. With little friction, the puck can travel very fast. How much lift force is created by the air? Add small amounts of weight to the puck and see when it no longer floats to measure the lift force. How many air holes (on average) support the puck? How much force is generated by each air hole? Will a puck with a larger surface area, supported by more air holes (on average),…
Read more
This science project presents an interesting puzzle. A disk of wood will float face-up; that is, with its circular cross-section parallel to the surface of the water. A long log of wood, however, floats on its side with the circular cross-section perpendicular to the surface of the water. If you think about it, disks and logs are both cylinders. Is there some intermediate length of cylinder that floats with the circular cross-section at a tilted angle? Try this experiment to find out!
Read more
Flying kites is an excellent way to learn about aerodynamic forces. In this science fair project, you will build and test a variety of kite designs to see which flies best in low wind speeds. You will use an inexpensive anemometer to accurately measure the wind speed. Since you will be choosing which kites to build and test, the experimental procedure provides a general outline for the experiments, but there is a lot of opportunity for you to be creative with your kite designs. This is a DIY…
Read more
Sailboats, tugboats, barges, ocean liners, submarines are all different boats with different shapes. How does the shape of a boat's hull affect how easily it moves through the water? This project shows you how you can investigate this question using a homemade water trough and model boat hulls.
Read more
You can make a very simple hovercraft with a stiff, disposable plate-a pie plate should work well-and a balloon. Glue a square of cardboard in the center of the bottom of the plate. Make a small hole through the center of both of these layers. Enlarge the hole slightly with a pencil. Push a balloon through the hole so that the opening is on the front side of the plate, and rest of the balloon sticks out from the back. Blow up the balloon, then set the plate down (balloon side up). What…
Read more
The Wright brothers used kites extensively to test their design ideas in the years leading up to their first successful airplane flight. With this science project, you'll learn about kite aerodynamics, and then come up with your own hypothesis about building or flying a kite. You can test your hypothesis two ways: with an online kite simulation program from NASA, and outdoors with the real thing! A great feature of this science project is that it has many possible variations, so you can decide…
Read more
You have probably made plenty of regular paper airplanes simply by folding a piece of printer or notebook paper. Have you ever tried making a "high performance" paper glider? These gliders use a different construction technique that involves cutting multiple shapes out of thicker, stiffer paper and gluing them together (this process is called lamination). There are many resources online that can get you started with the art of making high performance paper gliders. See the references in the…
Read more
Have you ever flown in an airplane, or looked up at one flying in the sky, and wondered how such a massive machine can stay in the air? Airplanes can stay in the air because their wings, also referred to as airfoils, generate lift. Engineers use devices called wind tunnels to experiment and test different wing shapes when they design new airplanes. Wind tunnels let engineers make careful measurements of the air flow around the wing, and measure the amount of lift it generates.
If you can get…
Read more
If you've played catch with both Aerobie flying rings and Frisbees, you know that the rings fly much further than the Frisbees with the same throwing effort. Why is that? Investigate the aerodynamics of flying rings and flying disks and find out!
Read more
Have you ever noticed how some jet planes have small, vertical projections as the tips of the wings? They're called winglets. What are they there for?
Read more
|
/-/https/www.sciencebuddies.org/cdn/Files/20483/6/icon-flask.png){kind=icon}
/-/https/www.sciencebuddies.org/cdn/Files/12088/9/bouyancy-thumbnail.png)
/-/https/www.sciencebuddies.org/cdn/Files/11816/8/kite-flying-sky.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/12087/4/hull-design-thumbnail.png)
/-/https/www.sciencebuddies.org/cdn/Files/2133/3/Aero_img008.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/19766/5/aerobie-superdisc.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/12089/7/aero-wing-tip-thumbnail.jpg)
/-/https/img.youtube.com/vi/shrrwhTZ-kA/0.jpg)
/-/https/img.youtube.com/vi/41RzGwZINOk/0.jpg)
/-/https/img.youtube.com/vi/WSRv89CiM-0/0.jpg)