Wind... air pushes it up while the string pulls it down keeping it in a fixed position.
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.
because the drag helps the kite have balance,and it helps the kite fly further and better,and if kite didnt have a drag force they wouldn't have balance when theyre flying and they will lose their capacity to fly,so without drag it is not possible for a kite to fly.
Kites must have symmetry so that they will fly straight. When the kite's sides are symmetrical, the force of the wind acts equally on both sides.
the wind in the sky blow the kite therefore helps the kite go up into the air so the kite can flyA kite flys by the wind blowing beneath the kite wich makes the kite go higher
You fly a kite by.
Fly My Kite was created on 1931-05-30.
You go fly a kite ( rewrite in indirect direct spcech)
In places that are not windy i guess. cause i kite needs wind to fly!
You should fly a kite where there is no power lines. Parks are great places to fly kites.
Let's Go Fly a Kite was created in 1964.
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.
The lifting force of all kites is produced by deflecting the air downward, the resulting change in momentum producing an upward force. The reason for this is that the air traveling over the top of the curved surface of the kite is going faster than the air passing underneath. Fast-moving air creates less pressure; this means there is more pressure underneath the kite, and this helps to force it upwards. Think of the kite as a sail boat, catching the air. The air tries to push the kite along like the sail boat. But the string the flyer holds keeps the kite tethered. Since the kite cannot go with the wind flow and the kite is tilted so that the air is deflected downward, the kite has no where to go but up. Both the lift-to-drag ratio and the stability of the kite are functions of the length of cable. The more cable released, the more drag created.