Table of Contents
Do objects with less mass fall faster?
Acceleration of Falling Objects Heavier things have a greater gravitational force AND heavier things have a lower acceleration. It turns out that these two effects exactly cancel to make falling objects have the same acceleration regardless of mass.
Which falls first the heavier or lighter object?
In other words, if two objects are the same size but one is heavier, the heavier one has greater density than the lighter object. Therefore, when both objects are dropped from the same height and at the same time, the heavier object should hit the ground before the lighter one.
Does height affect fall time?
Since both the displacement and acceleration are negative, they cancel each other when divided, so the result is positive. As you can see, as the height displacement (height) increases, the longer it takes for the robocopter to fall.
Who will fall first elephant or coin?
The elephant encounters a smaller force of air resistance than the feather and therefore falls faster. The elephant has a greater acceleration of gravity than the feather and therefore falls faster. Both elephant and feather have the same force of gravity, yet the acceleration of gravity is greatest for the elephant.
What is the rate at which two objects fall together?
When you tie two objects, 1 and 2, with charges q 1, q 2, and m 1, m 2, the combined object will fall at a rate (q 1 +q 2 )/ (m 1 +m 2 ). Assuming q 1 /m 1 < q 2 /m 2, or object 2 falls faster than object one, the combined object will fall at an intermediate rate (this can be shown easily).
Do all objects with equal weight fall at the same rate?
If all objects which have equal weight fall at the same rate, then _all_ objects will fall at the same rate, regardless of their weight. In mathematical terms, this is equivalent to saying that if q 1 =q 2 then m 1 =m 2 or, q/m is the same for all objects, they will all fall at the same rate! All in all, this is pretty hollow an argument.
How do you find the falling rate of a charged object?
In fact, the falling rate would be proportional to q/m, where q is the charge and m is the mass. When you tie two objects, 1 and 2, with charges q 1, q 2, and m 1, m 2, the combined object will fall at a rate (q 1 +q 2)/ (m 1 +m 2).
Does a 10kg ball fall faster than a 1kg ball?
The answer by Dr. Michael Ewart answers that part already.) The argument goes as follows: Assume we have a 10kg ball and a 1kg ball. Let us assume the 10kg ball falls faster than the 1kg ball, since it is heavier. Now, lets tie the two balls together.