What is the rate of speed in mph that all objects will fall at in a vacuum chamber?
Answers
Answered by
3
hey mate here is your answer ⤵⤵
According to Newtonian mechanics, F=ma, where F is the force of gravity (no air resistance here), and a is the acceleration, and m is the mass of the object. For gravity, F=mg, where g is the gravitational acceleration, giving a=g. If the object doesn't hit something first, it will continue to accelerate.
Something falling in towards Earth will have a speed of at least the escape velocity of the Earth, about 25,000 miles per hour. The Earth's gravitational field is not uniform -- it gets weaker the farther out you go. Also, objects such as meteors can have some additional energy due to their motion before they got near the Earth.
There is a speed limit to everything, though, and that's the speed of light; nothing goes faster, not even things that have been falling in a gravitational field for a long time.
Long before that speed limit is approached, air resistance will keep falling objects from exceeding a "terminal velocity" -- that speed when the force of air resistance exactly cancels out the downward pull of gravity.
Hope this will help you✌
According to Newtonian mechanics, F=ma, where F is the force of gravity (no air resistance here), and a is the acceleration, and m is the mass of the object. For gravity, F=mg, where g is the gravitational acceleration, giving a=g. If the object doesn't hit something first, it will continue to accelerate.
Something falling in towards Earth will have a speed of at least the escape velocity of the Earth, about 25,000 miles per hour. The Earth's gravitational field is not uniform -- it gets weaker the farther out you go. Also, objects such as meteors can have some additional energy due to their motion before they got near the Earth.
There is a speed limit to everything, though, and that's the speed of light; nothing goes faster, not even things that have been falling in a gravitational field for a long time.
Long before that speed limit is approached, air resistance will keep falling objects from exceeding a "terminal velocity" -- that speed when the force of air resistance exactly cancels out the downward pull of gravity.
Hope this will help you✌
Similar questions