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Why does a parachute slow you down?
A parachute slows you down because of air resistance. When the parachute is open, it catches a lot of air which creates drag force, counteracting the force of gravity pulling you down. This drag force slows your fall and helps you land safely at a slower speed.
How does a parachute slow down?
A parachute slows down a person or object by creating drag as it catches the air while descending. This drag counters the force of gravity, which slows down the fall to a safe and controlled speed.
What is the force called that makes a parachute go up?
The force that makes a parachute go up is called drag. As the parachute deploys, it creates drag by slowing down the descent of the person wearing it, leading to an upward force that helps to slow down their fall.
How does a parachute effect free fall?
If the parachute is too small, then the load it is carrying will fall faster, the same thing is with big parachutes. If it is medium sized it will fall at a desirable rate than a larger or smaller parachute.
What are the action and reaction forces on the fabric of a parachute when it is deployed?
When a parachute is deployed, the action force is the air resistance pushing against the parachute fabric. This air resistance is created by the change in the air's velocity as it passes through the canopy of the open parachute. The reaction force to this action force is the drag force created by the parachute pulling against the jumper. This drag force is created by the increase in the parachute's surface area, which slows the jumper down as they fall. The drag force is also responsible for the parachute's ability to slow the jumper's descent enough to safely reach the ground.
Why do you fall slower once you have opened up a parachute?
When you open a parachute, it increases the surface area and creates drag, which slows down your descent. The air resistance acting against the larger surface area of the parachute helps to counteract the force of gravity pulling you downwards, resulting in a slower fall.
What force would change if a parachutist opens the parachute during the fall What will happen to the net force and acceleration over time after that?
When the parachutist opens the parachute, the air resistance force will increase. This will reduce the net force acting on the parachutist, causing a decrease in acceleration over time. As the parachute slows the descent, the net force continues to decrease until the parachutist reaches a terminal velocity.
What force slows down a parachutist?
Air resistance, also known as drag, is the force that slows down a parachutist as they fall through the air. The parachute helps increase the surface area, resulting in more drag force and slowing down the descent.
What force changes when a sky diver opens his parachute?
When a skydiver opens his parachute, air resistance (also known as drag force) increases. This is due to the parachute creating a larger surface area and creating more resistance against the air, which slows down the skydiver's fall. This increased air resistance counterbalances the force of gravity acting on the skydiver.
How does parachutes help to increase air resistance?
Parachutes increase air resistance by capturing a large amount of air in the parachute canopy. This creates drag, which slows down the fall of the object attached to the parachute, allowing for a safer descent. The drag force helps to counteract the force of gravity pulling the object downward.
How does a parachute and air resistance work?
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.
What force stops you from hitting the ground to hard when you skydive?
Air resistance, also known as drag, is the force that slows down a skydiver's fall and helps cushion their landing. As the skydiver falls, air molecules exert a force opposite to their motion, creating resistance that ultimately slows them down and reduces the impact of hitting the ground.
