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How does the size of the parachute affect the time it takes for the parachute to reach the ground?
Oh, dude, it's like this: the bigger the parachute, the more air resistance it creates, so it slows down the descent. So, like, if you have a massive parachute, it's gonna take longer to float down than if you're using, like, a tiny one. It's all about catching that air and making the fall a little less speedy, you know?
What else can I help you with?
How does the size of the parachute affect the time it reaches the ground?
A larger parachute will result in more air resistance, slowing down the descent and increasing the time it takes to reach the ground compared to a smaller parachute. Conversely, a smaller parachute will experience less air resistance, allowing for a quicker descent and shorter time to reach the ground.
What are the two forces acting on a parachute?
The two forces acting on a parachute are gravity pulling it downward and air resistance pushing against it as it falls. The parachute's design allows it to create enough air resistance to slow down its descent and increase the time it takes to reach the ground.
How does weight affect a parachute?
weight would affect a parachute if you put a 500lb man on a parachute and dropped him gravity would make him travel faster towards the ground compared to if you placed a 92lb boy on a parachute as the parachute applies the same force to both of them but the man weighs more so takes more to slow down and therefor lands down on the ground first By Alister Kelly
In a controlled experiment a scientist is studying how long a parachutes of different sizes to fall on the ground what is the manipulated variable?
The manipulated variable in this experiment would be the size of the parachute. The scientist would change the size of the parachutes to see how it affects the time it takes for them to fall to the ground.
When You Drop An Object From A Certain Height It Takes Time T To Reach The Ground With No Air Resistance. If You Dropped It From Three Times That Height How Long Would It Take To Reach The Ground?
When an object is dropped from a certain height, the time it takes to reach the ground is independent of the height (assuming no air resistance). Therefore, whether you drop the object from three times the initial height or the original height, it will still take the same time (T) to reach the ground.
How does the size of the parachute affect the time it reaches the ground?
A larger parachute will result in more air resistance, slowing down the descent and increasing the time it takes to reach the ground compared to a smaller parachute. Conversely, a smaller parachute will experience less air resistance, allowing for a quicker descent and shorter time to reach the ground.
What are the two forces acting on a parachute?
The two forces acting on a parachute are gravity pulling it downward and air resistance pushing against it as it falls. The parachute's design allows it to create enough air resistance to slow down its descent and increase the time it takes to reach the ground.
How does weight affect a parachute?
weight would affect a parachute if you put a 500lb man on a parachute and dropped him gravity would make him travel faster towards the ground compared to if you placed a 92lb boy on a parachute as the parachute applies the same force to both of them but the man weighs more so takes more to slow down and therefor lands down on the ground first By Alister Kelly
What occurs only when air resistance does not affect the motion of a falling object?
The mass of an object will not affect the time it takes for it to reach the ground from a fixed height. Backspace
How long does it takes for a basketball to reach the ground?
Matters how high you drop it from.
In a controlled experiment a scientist is studying how long a parachutes of different sizes to fall on the ground what is the manipulated variable?
The manipulated variable in this experiment would be the size of the parachute. The scientist would change the size of the parachutes to see how it affects the time it takes for them to fall to the ground.
When You Drop An Object From A Certain Height It Takes Time T To Reach The Ground With No Air Resistance. If You Dropped It From Three Times That Height How Long Would It Take To Reach The Ground?
When an object is dropped from a certain height, the time it takes to reach the ground is independent of the height (assuming no air resistance). Therefore, whether you drop the object from three times the initial height or the original height, it will still take the same time (T) to reach the ground.
When you skydive Why don't you hit maximum speed before you hit the ground?
The maximum speed you can reach is also known as terminal velocity and this is the speed at which your mass is resisted by the air. Typically in a belly to earth body position, this is around 120mph. It takes around 10 seconds to reach this speed. The minimum exit height is 2500ft and would not reach this terminal velocity before they need to deploy their parachute. Most skydivers jump from a lot higher - between 10,000ft and 15,000ft. This gives them a freefall time of over 45 seconds and therefore they reach terminal velocity. Once the parachute is open, the decent rate is less than 10mph, so no you do not hit the ground at maximum speed in answer to your question.
How does mass effect the time of a falling object?
The mass of an object does not affect the time it takes to fall to the ground in the absence of air resistance. In a vacuum, all objects fall at the same rate regardless of their mass, following Galileo's principle of free fall. However, in the presence of air resistance, the mass of the object can influence the time it takes to reach the ground.
What is the manipulated variable in a controlled experiment in which a scientist is studying how long it takes a parachutes of different sizes to fall to ground?
The manipulated variable in this experiment would be the size of the parachutes. By changing the size of the parachutes, the scientist can observe how it affects the time it takes for the parachutes to fall to the ground.
What Italian scientist argued that mass of an object does not affect the time the object takes to fall to the ground?
Galileo
What Italian scientist argued that the mass of an object does not affect the time the object takes to fall to the ground?
Galileo galilei
