What makes a paper airplane fly fast?

What makes a paper airplane fly fast?

Pressure can be reduced on a wing’s surface by making the air move over it more quickly. The wings of a plane are curved so that the air moves more quickly over the top of the wing, resulting in an upward push, or lift, on the wing.

What is the fastest paper airplane called?

Fastest Flying Paper Airplane Tutorial – The Dart,, the fastest paper airplane. This is a classic paper airplane and one of the fastest paper airplanes you can make.

Who threw the longest paper airplane?

Joe Ayoob
Joe Ayoob throws a John Collins design, officially breaking the world record by 19 feet, 6 inches. The new world record, once verified by Guinness, will be 69.14 meters (226 feet, 10 inches).

What are some interesting facts about paper airplanes?

1 History of the Paper Airplane. There is some evidence of paper kites and gliders that originated in Ancient China and Japan. 2 Aerodynamics. As with real airplanes there are four main forces, called aerodynamic forces, that enable a paper plane to stay in the air. 3 Fun Facts About Paper Airplanes. 4 Paper Airplane Sites.

What is the longest time a paper plane has flown?

The paper plane that Blackburn used in this record breaking attempt was a ” glider “. As of 2012, Takuo Toda holds the world record for the longest time in air (27.9 seconds). The distance record (226 feet 10 inches or 69.14 metres) was set by Joe Ayoob, with a plane constructed by John Collins, in February 2012.

What is The wingspan of a paper airplane?

The record wingspan is 40 feet and 10 inches. It flew over 114 feet before it crashed into a wall. Scientists use paper airplanes to study flying. Paper airplanes can be made in different shapes, like an X. a triangle, and a circle.

Why do Paper Planes fly so fast?

Take for example the standard paper “dart” plane: If you have flown this plane before, you know that it flies quickly, but drops to the ground relatively quickly. This can be explained as the plane having little drag, but little lift as well. More specifically, the lift and gravity forces are not perfectly aligned like they are in the first image.