It does not 'keep you in the air' a parachute slows down your rate of descent by traping air under the canopy.
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.
Gravity pulls the parachute down towards the ground. When the parachute catches air as it falls, it creates air resistance that slows down the descent, allowing the parachute to glide gently to the ground. So gravity doesn't make the parachute go up into the air, but rather helps control its descent.
The upwards force on a parachute is called lift. It is created by the air resistance or drag generated by the canopy of the parachute as it falls through the air.
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.
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.
Air Resistance slows the parachute down.
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 floats by "catching" the air to slow descent.
Gravity pulls the parachute down towards the ground. When the parachute catches air as it falls, it creates air resistance that slows down the descent, allowing the parachute to glide gently to the ground. So gravity doesn't make the parachute go up into the air, but rather helps control its descent.
The upwards force on a parachute is called lift. It is created by the air resistance or drag generated by the canopy of the parachute as it falls through the air.
A parachute works as the gravity allows the parachute to go up into the air, then the surface area is covered with air resistance.
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.
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.
parachute is opened to provide air which manages the slow chute
Yes, the size of a parachute does affect how long it will float in the air. A larger parachute with more surface area will create more drag, slowing the descent and allowing it to float in the air longer compared to a smaller parachute.
A ripcord is the part of a parachute pulled when the jumper is in the air to deploy the parachute canopy. (i.e., It opens the parachute when pulled)
The force that changes when the parachute opens is air resistance, also known as drag force. As the parachute opens, it increases the surface area exposed to the air, which increases the drag force acting on the parachute and slows down the descent of the object attached to the parachute.