kites stay in the air they follow the air around the same things with bollons if they are let go they would fly away
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moving air (wind ) is required, the angle of the kite gives vertical force to the kite, opposing gravity.
Kites stay in the air because of the force exerted on them by moving air (wind). If there were no wind then the kite would fall to the ground. This is because gravity is always trying to pull the kite down. Now the force of wind comes in to play to keep the kite in the air. The kite is at an angle to the ground, and it looks like this slash when it is flying in the air ---> / That is important because as the kite catches the wind two orthogonal forces are applied to the kite. One that is anti-parallel to gravity (Meaning the force is pointing up.) and one that is orthogonal to gravity. We don't necessarily care about the orthogonal force for our example so let's forget about it. The force generated on the kite that is anti-parallel to gravity is what keeps it in the air, so long as the anti-parallel force is greater than the weight of the kite.
the reason is that the kite would not get any air to help it rise up
The wind pushing up against it holds it up
The geometric figure known as a kite is, by definition, a quadrilateral.The toy that flies in the air known as a kite can have pretty much any shape imaginable, many of which are not quadrilaterals.
A kite is a toy that is kept in flight by the wind not far from the earth's surface. An airplane is a a motorized means of long distance transportation that has motors that make it possible to stay in flight at high altitudes.
Kites stay in the air because of the force exerted on them by moving air (wind). If there were no wind then the kite would fall to the ground. This is because gravity is always trying to pull the kite down. Now the force of wind comes in to play to keep the kite in the air. The kite is at an angle to the ground, and it looks like this slash when it is flying in the air ---> / That is important because as the kite catches the wind two orthogonal forces are applied to the kite. One that is anti-parallel to gravity (Meaning the force is pointing up.) and one that is orthogonal to gravity. We don't necessarily care about the orthogonal force for our example so let's forget about it. The force generated on the kite that is anti-parallel to gravity is what keeps it in the air, so long as the anti-parallel force is greater than the weight of the kite.
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 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.
Potential energy, because of this a kite is not moving.
Air + snake = kite
the kite that fly in the air came first but the geometric one is a kite is a quadrilateral with two pairs of congruent adjacent sides and no opposite sides congruent.
the kite
Snake + air makes kite good luck!
katie's kite
stay away from power lines and watch out for little kids when looking up at your kite
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
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.