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.
When a parachute opens, it increases air resistance, which creates drag that opposes the force of gravity pulling the person or object down. The larger surface area of the parachute allows it to catch more air, which helps to slow down the descent of the person or object safely.
Air resistance will increase when the parachute opens, and the decent of the skydiver will slow down.
When a person's parachute opens, drag force increases as the parachute catches air. This drag force acts in the opposite direction of the person's motion, causing them to slow down gradually to a safe descent speed. Additionally, the canopy design and size play a crucial role in how quickly the person slows down.
When a person opens a parachute, it creates drag or air resistance which slows down the descent rate. The larger the parachute, the more drag is created, and the slower the person falls. This helps to reduce the speed and control the descent for a safe landing.
Air resistance, also known as drag, acts on the parachute of a dragster to slow it down. As the parachute deploys and opens up, it catches the air and creates a drag force that opposes the motion of the dragster, ultimately helping to slow it down.
A parachute is not uniformly accelerated because it experiences air resistance, which increases as the parachute opens and slows down the descent of the object. This non-uniform acceleration is caused by the changing forces acting on the parachute as it falls through the air.
Air resistance, also known as drag, is the force that slows down a man falling with a parachute. As the parachute opens, it increases the surface area exposed to the air, creating more drag and slowing down the 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.
A skydiver loses speed when he opens the parachute because the parachute creates drag by slowing down the movement of air. This drag force opposes the motion of the skydiver, causing a decrease in speed. Additionally, the larger surface area of the parachute increases the effect of air resistance on the skydiver's body.
Gravity pulls the parachute downward, causing it to accelerate towards the ground. As the parachute falls, air resistance increases, slowing down its descent. This gradual decrease in speed allows for a controlled and safe landing.
The upward force in a parachute jump is caused by air resistance or drag acting on the parachute as it opens and expands. This creates a drag force that slows down the descent of the jumper, allowing them to land safely.