23 miles
Paper airplanes fly due to the principles of aerodynamics. When a paper airplane is thrown, the shape of its wings and the angle at which it is thrown create lift, which allows the airplane to stay in the air and glide. The force of gravity pulling the airplane down is counteracted by the lift generated by the wings, allowing the airplane to fly.
First law: The speed of the paper airplane remains constant unless acted upon by an external force. At launch, until thrown by someone, the airplane is at rest. In the air, drag (friction) is slowing the aircraft down.Second law: The airplane's acceleration at every instant is equal to the sum of all the forces on it divided by its mass.Third law: As the paper airplane's wings generate lift, they are subject to gravity. When thrown, the airplane has thrust, but drag is also generated.
The material of a paper airplane matters. If it is too flimsy, the plane will not be able to keep its shape and will become just another piece of paper thrown in the air. If it is too heavy for its size, it will just fall down and not fly.
Paper airplanes work by utilizing the principles of aerodynamics. When thrown, the wings of the paper airplane create lift, which allows it to stay in the air. Factors that affect a paper airplane's flight performance include the design of the airplane, the weight distribution, the shape of the wings, and the force of the throw.
thrid to first
Paper airplanes fly due to the principles of aerodynamics. When thrown, the shape and design of the paper airplane create lift, which is the force that allows it to stay in the air. The wings of the paper airplane are designed to generate lift by creating a pressure difference between the top and bottom surfaces of the wings. This lift, along with the thrust generated by the initial throw, allows the paper airplane to fly through the air.
Uwe Hohe throw 104.80 metres
104.8m by Uwe Hohn (GDR)
the dart air plane flys the furthest.
The object you're referring to is likely a paper airplane. It is constructed from a piece of paper that is folded into a specific design and can glide through the air when thrown. The simplicity of its materials allows for creativity in design, and it can achieve varying flight distances and patterns based on how it's made and thrown.
The effect of a hole on a paper airplane would depend on the type of paper airplane the hole is on, and where it is on the aircraft.
Horizontally