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It is usefull because how would the ball bonce without the being elastic energy in it???
Steel ball is an example for perfectly elastic . Because it will absorb the energy when it is loded and give back the same amout of energy when it is unloaded , upto maximum level .
No, the glass ball would probably break. And the rubber ball allows for an elastic collision.
assuming they are the same size/shape, the steel ball would because it has more mass and is more dense.
The kinetic energy of the ball is converted into elastic energy through deformation (I assume we are not talking about steel balls). The elastic energy is then released, pushing the ball back up. Some energy is lost in the ball where it will cause heating, and some is probably lost to the floor, depending how elastic the floor is, so the rebound bounce won't reach the same height as the initial height, but total energy must be conserved.
It is usefull because how would the ball bonce without the being elastic energy in it???
Steel ball is an example for perfectly elastic . Because it will absorb the energy when it is loded and give back the same amout of energy when it is unloaded , upto maximum level .
Hopfully elastic because otherwise the ball would be stuck to the hand.
A steel ball is a ball, or sphere, made of steel. An example would be a ball bearing, and the whole world runs on bearings, many of which are of the ball bearing variety.
The steel ball with model of Ø120㎜、Ø100㎜、Ø80㎜ should be added。
No, the glass ball would probably break. And the rubber ball allows for an elastic collision.
A steel ball is a ball, or sphere, made of steel. An example would be a ball bearing, and the whole world runs on bearings, many of which are of the ball bearing variety.
assuming they are the same size/shape, the steel ball would because it has more mass and is more dense.
The air inside the ball expands on heating and this, in turn, makes the ball harder / more elastic.
Yes and no. When it 'falls' out of a cannon/musket, the solid steel ball will fall at an significantly speedier rate than that of a conventional solid steel ball not emerging from a cannon/musket housing. But sometimes the other solid steel ball will drop slightly faster than the solid steel ball as well. No one knows why really. It's a mystery. :-) (don't know what this question was supposed to mean but that was fun, lol)
You could use a magnet to attract the steel ball bearings and then you would be left with the plastic beads.
The kinetic energy of the ball is converted into elastic energy through deformation (I assume we are not talking about steel balls). The elastic energy is then released, pushing the ball back up. Some energy is lost in the ball where it will cause heating, and some is probably lost to the floor, depending how elastic the floor is, so the rebound bounce won't reach the same height as the initial height, but total energy must be conserved.