i would say that a square would be the best and would have more stability. It has equal sides meaning it won't tilt to one side or the other.
Kites fly by harnessing the lift force generated by the wind as it flows over the kite's surface. The shape and angle of the kite help create lift, while the tail helps stabilize and steer the kite. Gravity acts downward counteracting the lift force, and tension in the string keeps the kite connected to the flyer.
The answer depends on the string attached to the kite. The kite will reach a point where the weight of the string overcomes the lift the kite is able to achieve.
To fly a kite without wind, you can try running with the kite behind you to create lift. Another option is to use a remote-controlled kite or a kite designed for indoor use that can fly without wind. Additionally, using a helium balloon to lift the kite can help it stay in the air.
To the ground pretty abruptly the tension of the string in relation to the wind causes the kite to create lift if you take out any part of that equation the kite will no long create lift and will tumble to the ground
Basically the lift of the kite is made by the actual parts of the tail. The feathers on the kite make it sturdy in the wind.
Triangle is still the most common. The shape cuts into the wind with little to no resistance and then spans out to create lift. This also gives the kite direction. Airplanes have the same general shape.
They can both fly
well... if you have a longer car that is flatter it will have lift which lowers speed or it will lift off the ground.
The best way too shaping your chest is to run,lift light weights in burn out sets and push-ups
No, you cannot fly a kite on the moon because there is no atmosphere to create the wind needed for the kite to fly. In the absence of an atmosphere, there is no air pressure to generate the necessary lift for the kite to stay aloft.
To lift the parachute up people carry light weights in it. So if light weights are needed to lift the parachute up heavy weights will fall the parachute quicker.
The triangle on top is smaller than the one on the bottom. The reason for this is to have more surface area on the bottom, so the kite leans into the wind. If both triangles were the same size, the kite would lay horizontal (level) and the wind would not lift the kite up. It is a vector problem.Here is a good site to see the physics of kite flyingwww.real-world-physics-problems.com/physics-of-kite-flying.htmlThe kite leans into the wind. So when the wind blows horizontal, the kite is pushed up (lift) and to the right (drag). By adjusting the position of the 3 strings, you can control the stability of the kite.