Yes!
No, not all balls move at the same speed. Factors such as weight, surface texture, and the force of the impact can affect how fast a ball moves. Balls with different properties will have different speeds when thrown or hit.
Two objects of different masses dropped from the same height will hit the ground at the same time because gravity pulls on both objects with the same acceleration, regardless of their mass. This acceleration is a constant value and it causes both objects to fall at the same rate, resulting in them hitting the ground simultaneously.
If friction due to air is neglected then both 10kg and 100 kg would reach the ground level at the same time. In the expression S = ut + 1/2 g t^2 we don't have place for mass. Hence for same S, with same g for both masses, it would have the same t
Objects of different masses will reach the ground at the same time when dropped from the same height because they are subject to gravity, which accelerates all objects at the same rate regardless of their mass. This is known as the equivalence principle and was famously demonstrated by Galileo.
They'll both reach the top of their arcs, turn around, and begin to fall at the same time, fall with the same acceleration, and hit the ground at the same time with the same speed.
Same weight different volume
No, not all balls move at the same speed. Factors such as weight, surface texture, and the force of the impact can affect how fast a ball moves. Balls with different properties will have different speeds when thrown or hit.
No. If you have two identical balls - baseballs, for example - and you drop one at the same time you throw another down, the one you throw will hit the ground first.
The same amount of time. But that time will depend on how far the different balls have to drop.Oh, and an apostrophe doesn't mean, "Here comes an s." There is no apostrophe in "does."
No, Not Always, But They Are Always Close In Weight.
They would hit the ground at the same time, Galileo dropped to balls with different masses and they both hit the ground at the exact same time.
Two objects of different masses dropped from the same height will hit the ground at the same time because gravity pulls on both objects with the same acceleration, regardless of their mass. This acceleration is a constant value and it causes both objects to fall at the same rate, resulting in them hitting the ground simultaneously.
Two balls of different masses are thrown vertically up from the same point and at the same time. The two balls will experience the same change in :there velocity.
If friction due to air is neglected then both 10kg and 100 kg would reach the ground level at the same time. In the expression S = ut + 1/2 g t^2 we don't have place for mass. Hence for same S, with same g for both masses, it would have the same t
Their densities are different.
Objects of different masses will reach the ground at the same time when dropped from the same height because they are subject to gravity, which accelerates all objects at the same rate regardless of their mass. This is known as the equivalence principle and was famously demonstrated by Galileo.
They'll both reach the top of their arcs, turn around, and begin to fall at the same time, fall with the same acceleration, and hit the ground at the same time with the same speed.