A parallelogram has parallel sides.
A kite does not.
It has 2 pairs of sides with equal length but this does not make parallel sides.
The difference is surely that an arrowhead has one reflex internal angle where a kite does not.
the shape
You can hang off a hang glider but you can only fly a kite.
the shape
Color doesn't affect how the kite flies. You can fly any color kite and it wont make a difference.
Air pressure affects lift on a kite by creating a pressure difference between the top and bottom surfaces of the kite. This pressure difference results in a force called lift that allows the kite to rise and stay airborne. Higher air pressure below the kite and lower air pressure above it lead to an upward force that keeps the kite aloft.
Yes, flying a kite is a density application because it involves utilizing the density difference between the air inside the kite and the surrounding air to generate lift. By harnessing this density differential, the kite is able to fly in the air.
They are both 4 sided quadrilaterals but a kite has no parallel sides whereas a parallelogram has opposite parallel 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
Yes, there is generally more pressure on the top of a kite compared to the bottom. As the kite moves through the air, the shape of the kite causes the air to move faster over the top surface, leading to lower pressure above the kite and higher pressure below. This difference in pressure generates lift, allowing the kite to fly.
The aerodynamics of a kite involve the interaction between the kite and the wind. When wind flows over the kite's surface, it generates lift due to the difference in pressure between the upper and lower surfaces, similar to an airplane wing. The design, shape, and angle of the kite, known as the angle of attack, influence how effectively it can harness the wind. Additionally, drag forces act against the kite's motion, and a well-designed kite balances lift and drag to maintain stable flight.
The dimensions of each one are going to have some bearing on the answer.