Potential and kinetic energy
In a paper airplane experiment, the independent variable is the factor that is being deliberately manipulated or changed by the researcher. This could be the type of paper used, the design of the paper airplane, the angle of launch, or the force applied when throwing the airplane.
The force of your hand throwing it and the wings catch and use the wind
paper airplane paperclip
paper airplanes didin fact come before orvill wright.
The total mechanical energy of the paper airplane can be calculated as the sum of its kinetic energy (KE) and potential energy (PE). KE = 0.5 * mass * velocity^2 and PE = mass * gravity * height. Since the paper airplane is moving, it has kinetic energy. The total mechanical energy is KE + PE.
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.
Yes, the design of a paper airplane can effect its performance.
Throwing a paper airplane inside the house typically involves less space and fewer variables, allowing for a more controlled flight. Indoor conditions often mean less wind interference, which can lead to more predictable flight paths. Outside, however, factors like wind, obstacles, and larger areas can affect the airplane's performance and distance. Additionally, outdoor throws might allow for longer flights, but they also come with greater unpredictability.
A paper airplane cannot fly without a wing.
Farther than any other paper airplane that i know of
Leonardo da Vinci made the first paper airplane
The paper airplane was invented in 1909 by an American named Jack Northrop.