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Gravity and air resistance are the main forces acting on a parachute. Parachutes are pulled towards the ground by gravity, and if there was no parachute, the guy attached to the chute would turn into tomato paste. So parachutes are designed to create the maximum amount of drag (which is air resistance) so the whatever attached lands undamaged. So basically, parachutes create air resistance to reduce the effects of gravity
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What does gravity have to do with parachutes?
Gravity is the force that pulls a parachute and its user towards the ground. When a parachute is deployed, it increases air resistance, which counters the force of gravity and slows down the descent of the user. The balance between gravity and air resistance allows the parachute to lower the user safely to the ground.
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.
What is one useful situation by air resistance?
Air resistance is useful in the design of parachutes as it helps slow down the descent of the parachute and the person attached to it. By creating drag as the parachute opens and fills with air, air resistance counteracts the force of gravity and allows for a safe and controlled descent.
Do bigger parachutes have more air resistance or drag force than smaller parachute?
Bigger parachutes have more air resistance and drag force than smaller parachutes. This is because the larger surface area of the bigger parachute creates more friction with the air, resulting in increased resistance and drag.
How do parachutes slow something down?
Parachutes slow something down by increasing air resistance, which creates drag as the object falls through the air. The large surface area of the parachute catches the air, causing it to exert an upward force that counteracts gravity and reduces the speed of descent.
What does gravity have to do with parachutes?
Gravity is the force that pulls a parachute and its user towards the ground. When a parachute is deployed, it increases air resistance, which counters the force of gravity and slows down the descent of the user. The balance between gravity and air resistance allows the parachute to lower the user safely to the ground.
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.
What are two forces that affect an object falling?
-- gravity -- air resistance
What is one useful situation by air resistance?
Air resistance is useful in the design of parachutes as it helps slow down the descent of the parachute and the person attached to it. By creating drag as the parachute opens and fills with air, air resistance counteracts the force of gravity and allows for a safe and controlled descent.
How do forces affect a falling object?
Air resistance and gravity are the main components.
Do bigger parachutes have more air resistance or drag force than smaller parachute?
Bigger parachutes have more air resistance and drag force than smaller parachutes. This is because the larger surface area of the bigger parachute creates more friction with the air, resulting in increased resistance and drag.
How do parachutes slow something down?
Parachutes slow something down by increasing air resistance, which creates drag as the object falls through the air. The large surface area of the parachute catches the air, causing it to exert an upward force that counteracts gravity and reduces the speed of descent.
Which two forces affect the motion of a projectile?
The two forces that affect the motion of a projectile are gravity and air resistance. Gravity acts to pull the object downward, influencing its vertical motion, while air resistance affects the projectile's horizontal motion by slowing it down as it travels through the air.
How does air resistance and gravity effect parachutes?
Air resistance acts against the force of gravity, slowing down the descent of a parachute. The larger the surface area of the parachute, the more air resistance it creates, which helps to slow down its fall. Gravity, on the other hand, pulls the parachute downwards with a force proportional to the mass of the parachute. Balancing these forces allows the parachute to descend safely and slowly.
Does air pressure affect gravity?
Air pressure does not directly affect gravity. Gravity is a fundamental force that acts uniformly on all objects regardless of air pressure. However, changes in air pressure can influence the density of the air, which may indirectly affect the behavior of objects falling through the atmosphere due to air resistance.
What Force Slows Down Parachutes?
Air resistance, also known as drag force, is what slows down parachutes. As the parachute descends through the air, the air molecules create resistance, which counteracts the force of gravity pulling the parachute downwards. This drag force gradually reduces the speed of the parachute until it reaches a safe landing.
Why do parachutes help you slow down?
Parachutes help you slow down by increasing air resistance, which creates drag and opposes the force of gravity pulling you down. The larger surface area of the parachute catches more air, significantly slowing your descent and allowing for a safer landing.
