From the results of testing design number 2 flew the furthest with both the plane launcher and people throwing it. Design 3 however had the biggest wing span. The weight of each paper aeroplane was the same as each aeroplane was made out of the same size and weight of paper.
What type of paper airplane stays in the air the longest?
The Pelican Paper Plane
The Pelican paper airplane will seem to fly on forever when launched from a high place.
What makes a paper plane fly the farthest?
The aerodynamics of the plane will need to have little drag and be light enough to defy gravity. Paper airplanes also use the forces of lift and thrust. When these four forces are used in balance, paper airplanes will fly longer.
What type of airplane flies the farthest?
How To Fold The World’s Farthest-Flying Paper Airplane. The all-time distance record for paper airplane flight* was set in February, 2012. The paper craft was designed by John Collins (a.k.a. “The Paper Airplane Guy”), and soared a whopping 226 feet, 10 inches.
Do longer paper airplanes fly farther?
The long paper airplane flew farther than the wide paper airplane because it cut through the air and reduced air resistance. The wide paper airplane flew worse because it had more wind resistance because the wingspan caught the air more.
What is the best wing shape for a paper airplane?
As with most flying machines, a paper airplane is most effective while maintaining a balance of these four concepts, and it is also usually effective in one of two basic designs: Triangular styles like the Suzanne are sturdy and outfitted for the best possible initial thrust, while rectangular shaped paper planes cover …
What is the four forces of flight?
It flies because of four forces. These same four forces help an airplane fly. The four forces are lift, thrust, drag, and weight. As a Frisbee flies through the air, lift holds it up.
Why do smaller paper airplanes fly farther?
Wing Load. A paper airplane with a larger mass in the body and smaller wings will fly faster than one with a smaller body mass and larger wings because its “wing load” is larger. To determine wing load, divide the weight (mass) of the plane by the surface area of the main wing.