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Yes it would work. But there would be nothing for it to work against, because there is no gravitational force.
If there was no gravity and some other force working on the parachute, such us it being pulled behind a car, then if there was air or another fluid present, then there would be drag, just as in a gravity environment.
What else can I help you with?
How does gravity allow a parachute to go up into the air?
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.
What is the most valuable force for a parachute?
Gravity is the most valuable force for a parachute. When a parachute is deployed, it creates drag forces that counteract the force of gravity, allowing the parachute and its user to descend safely to the ground.
What are the parachute forces?
The main forces acting on a parachute during descent are gravity, air resistance, and the weight of the parachute itself. Gravity pulls the parachute and its load downwards, while air resistance provides an upward force that slows the descent. The weight of the parachute adds to the overall force acting on the system.
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 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 the third law of motion affect a parachute?
yes it does cause if there was no gravity then ur parachute would be going up
How does gravity allow a parachute to go up into the air?
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.
What is the most valuable force for a parachute?
Gravity is the most valuable force for a parachute. When a parachute is deployed, it creates drag forces that counteract the force of gravity, allowing the parachute and its user to descend safely to the ground.
Why a parachute would not be useful in landing on the moon?
Parachutes work because the resistance of the atmosphere slows them down.The moon has no atmosphere to speak of, therefore it would not impede the progress of a parachute. it would simply fall like a brick..Because there is or no air on moon parachutes need air to work. in other words a parachute on the moon would fall as fast as a block of leadActually there is gravity on the moon, but there is no air to slow the parachute down, and so it wouldn't make any difference to the falling speed.Parachutes need an atmosphere to work by causing air drag. The moon haven't got enough atmosphere for that to happen.
Why does a parachute fall to the ground?
Because of gravity
Would a Parachute work on the moon?
A parachute works on Earth by effectively 'trapping air' inside of it, creating a large surface area and so a large amount of wind resistance or friction. As there is no atmosphere on the moon, there is no air to be trapped and therefore no friction. So no, a parachute would not work on the moon.A parachute works using air resistence. There is no air on the moon. Therefore a parachute would only pull you down faster. If ur planning on going to the moon i suggest you try a jetpack.
Explain how a parachute works using the terms air resistance surface area and gravity?
A parachute works as the gravity allows the parachute to go up into the air, then the surface area is covered with air resistance.
What are the parachute forces?
The main forces acting on a parachute during descent are gravity, air resistance, and the weight of the parachute itself. Gravity pulls the parachute and its load downwards, while air resistance provides an upward force that slows the descent. The weight of the parachute adds to the overall force acting on the system.
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 would a parachute land safely on Mars which has a thin atmosphere?
Because the gravity of Mars is only 37% that of Earth
Would a parachute work on a lander to earths moon?
No, a parachute would not work on a lander descending to the Moon because there is no atmosphere on the Moon to create the needed drag for the parachute to slow down the descent. Other methods such as retro-rockets or thrusters are used for landing on the Moon.
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.
