no your wrong the force of the wind must be greater than the force of gravity
No. When two forces act in the same direction, they can be added together. It is only when two identical forces act in opposite directions that they cancel each other out.
gravity and displacement
Forces don't act on other forces - forces act on objects.
2, gravity & buoyancy.
Wind forces act, for the most part, horizontally. Kites are shaped like miniature parachutes - they capture the wind, and due to the shape of the kite, they are forced upward. the combined forces along with the string keep the kite in it's place.
no your wrong the force of the wind must be greater than the force of gravity
No. When two forces act in the same direction, they can be added together. It is only when two identical forces act in opposite directions that they cancel each other out.
Force is split into 2 different "types" contact forces act between 2 objects that are TOUCHING, non-contact forces act as a distance and are not contacting. So the answer would be contact.
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.
gravity and displacement
light and water
vector sum of the two forces.
Forces don't act on other forces - forces act on objects.
The kite should have considerble weight to support viscous and bouyoant forces and the stick frame should have high density.
A kite or arrowhead.A kite or arrowhead.A kite or arrowhead.A kite or arrowhead.
2, gravity & buoyancy.