Parachutes need large air resistance in order to slow down the descent of an object. The large surface area of the parachute allows it to catch and trap more air, creating drag that counteracts the force of gravity pulling the object down. This gradual reduction in speed allows for a safe landing.
A parachute works by increasing air resistance. When the parachute opens, it creates a large surface area that catches and slows down the air as the object falls. This increased air resistance reduces the speed at which the object falls, allowing it to descend more slowly and safely.
Thrust does not act on a parachute. A parachute experiences air resistance, which is a force that opposes the downward motion of the parachute and slows its descent. This air resistance allows the parachute to safely decelerate a falling object.
Of course it does. If there was no air resistance then the parachute would accelerate at the speed of gravity which is 9.8m/s/s. If a human were using a parachute and there was no air resistance then they would die. "Air resists the motion of objects traveling through it because its molecules collide with the molecules of the object. This resistance to the motion is beneficial because the force acts to slow down a parachute jumper's speed of fall. The jumper falls with increasing speed until the parachute is opened. The greater air resistance acting on the surface of the parachute will bring the jumper to a terminal velocity and will enable the parachutist to safely reach the ground".http://amyallen.org/mhs/applied_physics/physics_of_flight/rocket/parachutes_payloads.pdf
When an object falls through air, it experiences air resistance. This air resistance is a force that opposes the object's motion. The amount of air resistance an object experiences depends on the object's shape, size, and speed. A man using a parachute falls slowly because the parachute creates a large amount of air resistance. A stone falls very fast because it has a small amount of air resistance.
An open parachute increases air resistance by creating a large surface area that catches and slows down the air around it. This creates drag that counteracts the force of gravity, slowing the skydiver's descent. The inflated canopy also increases the overall mass of the skydiver-parachute system, further enhancing the air resistance.
Air Resistance slows the parachute down.
A parachute works by increasing air resistance. When the parachute opens, it creates a large surface area that catches and slows down the air as the object falls. This increased air resistance reduces the speed at which the object falls, allowing it to descend more slowly and safely.
Thrust does not act on a parachute. A parachute experiences air resistance, which is a force that opposes the downward motion of the parachute and slows its descent. This air resistance allows the parachute to safely decelerate a falling object.
A parachute works as the gravity allows the parachute to go up into the air, then the surface area is covered with air resistance.
Of course it does. If there was no air resistance then the parachute would accelerate at the speed of gravity which is 9.8m/s/s. If a human were using a parachute and there was no air resistance then they would die. "Air resists the motion of objects traveling through it because its molecules collide with the molecules of the object. This resistance to the motion is beneficial because the force acts to slow down a parachute jumper's speed of fall. The jumper falls with increasing speed until the parachute is opened. The greater air resistance acting on the surface of the parachute will bring the jumper to a terminal velocity and will enable the parachutist to safely reach the ground".http://amyallen.org/mhs/applied_physics/physics_of_flight/rocket/parachutes_payloads.pdf
When an object falls through air, it experiences air resistance. This air resistance is a force that opposes the object's motion. The amount of air resistance an object experiences depends on the object's shape, size, and speed. A man using a parachute falls slowly because the parachute creates a large amount of air resistance. A stone falls very fast because it has a small amount of air resistance.
An open parachute increases air resistance by creating a large surface area that catches and slows down the air around it. This creates drag that counteracts the force of gravity, slowing the skydiver's descent. The inflated canopy also increases the overall mass of the skydiver-parachute system, further enhancing the air resistance.
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.
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.
Air resistance will increase when the parachute opens, and the decent of the skydiver will slow down.
-- The force of gravity is unchanged before and after.-- The force of air resistance on the skydiver is greater before, and less after,because she is falling slower after the parachute opens.-- The effect on her of air resistance is greater after the parachute is open. Theincreased air resistance itself acts on the parachute, and its effect is transferredto the skydiver through her harness.
When a parachutist jumps, the parachute deploys and opens up, creating a large surface area. This increases air resistance, which slows down the fall by creating a drag force that counters gravity. The parachute allows the parachutist to safely land at a slower speed than if they were falling freely.