How smaller, how faster the downglide
The larger the size of the parachute the more air resistance is caused because its larger surface traps more air. Becuase there is more air resistance the larger the parachute the slower it travels to the ground. The smaller the parachute the faster it falls to the ground for the opposite reason.
You can make a parachute stay in the air longer by increasing its surface area, either by using a larger parachute or by adding more fins or panels to the canopy. You can also try adjusting the weight of the payload attached to the parachute to help it descend more slowly. Finally, make sure the parachute is properly packed and deployed to maximize its effectiveness in the air.
Yes, the area of a parachute directly affects how fast it falls. A larger parachute will create more air resistance, slowing down its descent, while a smaller parachute will fall faster due to less air resistance.
A smaller parachute will typically descend faster than a larger parachute due to its lower air resistance. This is because a smaller parachute catches less air and therefore has less drag, causing it to fall more quickly.
When her parachute opens, the air resistance increases. Now there is a resultant force going upwards on the parachute. The increase in air resistance occurs because when the parachute is opened there is a much larger surface area (than before) so the particles of air are much more likely to get 'caught up' in the parachute unable to pass easily, therefore creating more air resistance (an upwards force) and so slowing down the parachutist. NOTE: The parachutist does NOT move upwards after the parachute has opened, they just slow down. This effect comes from when a parachutist with a camera is filming opposite, they are still falling rapidly while the other person's parachute has opened, therefore passing them as they continue to freefall, and so the parachutist opposite appears to move upwards after opening the parachute.
A larger parachute will create more air resistance, slowing down the descent. This can result in a slower and gentler landing. Conversely, a smaller parachute will generate less air resistance and lead to a faster descent and potentially a harder landing.
The size of the parachute affects air resistance because a larger parachute will have more surface area interacting with the air, creating more drag. This drag helps to slow down the descent of the object attached to the parachute. Conversely, a smaller parachute will generate less air resistance and may result in a faster descent.
A larger parachute will create more air resistance, slowing down the descent and leading to a softer landing. A smaller parachute will fall faster and may result in a rougher landing due to the increased speed. The size of the parachute should be chosen based on the weight of the object being descended and the desired landing conditions.
Depends what you mean by "better". A bigger parachute provides more wind resistant so if you were to jump out of a plane, you would want to go big. If your talking speed (like a running parachute) you would want a small parachute to accommodate how much harder you want to make your run
A small parachute would fall faster then a larger one because there is less air resistance trying to push the small one up but the larger one has a lot of air resistance because there is more area for the air to push up. Hope this helped :P
Ram-air parachutes, their size measured in square feet, come in a wide variety of sizes depending on intended use. In general, the larger the canopy, the slower and more forgiving the performance. Students usually use parachutes from 200 to 280 square feet while experienced skydivers often fly canopies less than 100 square feet. Also, the heavier the suspended weight, the faster the canopy. A 170 lb. man flying a 170 square foot canopy will get more performance out of his canopy than a 110 lb. woman flying the exact canopy. That's also why a 330 square foot tandem canopy is considered high performance, since two people weighing up to 500 lbs hang below it.
A parachute slows down the descent of an object by creating drag or air resistance. When a parachute is deployed during free fall, it opens up and catches air, creating a force that counteracts the force of gravity. This allows the object attached to the parachute to decelerate and descend at a slower, safer speed.