It depends on the object's mass.
yes, and the speed depends on the weight of the object
29.4
A falling object will continue to accelerate when free falling, but each object has a maximum speed which it can reach (but go no faster than this speed) when free falling from great heights. True.
it all depends on the object
If an object is in free fall, its speed grows at the rate of 9.8 m/s every second.To find its speed at the end of some period of time, multiplyspeed = (number of seconds after the drop) times (9.8 meters per second2)Since the object is falling, the speed is in the downward direction. Knowing boththe speed and the direction tells you the velocity.
yes, and the speed depends on the weight of the object
29.4
Everything falls at the same speed so there is no free falling object If everything falls at the same speed then everything is a free falling object... Air resistance or deflection controls the falling speed of any object, this crucial stipulation determines falling speed. I leanred this in flight school.. please someone intelligent communicate with me?
A falling object will continue to accelerate when free falling, but each object has a maximum speed which it can reach (but go no faster than this speed) when free falling from great heights. True.
194fps
it all depends on the object
That depends what data you are given. Close to the Earth's surface, such an object will accelerate at 9.8 meters/second2, so if it starts from rest, after "n" seconds, it will have a speed of "9.8n" meters/second.
If an object is in free fall, its speed grows at the rate of 9.8 m/s every second.To find its speed at the end of some period of time, multiplyspeed = (number of seconds after the drop) times (9.8 meters per second2)Since the object is falling, the speed is in the downward direction. Knowing boththe speed and the direction tells you the velocity.
At gravity's rate of 9.8m/s , after ten seconds it would be 98 m/s theoretically, although also a variable is terminal velocity.
29.4 m/s
19.6 meters per second
There is a uniform accleration of 9.8 m/s*s experienced by a free falling object, caused due to the earth's gravity.