Why Do Hard Surfaces Absorb Less Energy at Tracy Shane blog

Why Do Hard Surfaces Absorb Less Energy. The concrete floor does not deform as much, and does not dissipate as much energy during this deformation. Balls bounce more on harder surfaces because hard surfaces provide less absorption of the energy from the ball's impact. The collision is more elastic. If the surface is elastic, then. When a ball hits a soft surface, some of the energy is absorbed by the surface, rather than the ball, deforming. The higher up it is when you let go, and the harder you push it towards the ground, the more energy it has. But if you bounce it on something solid, like a hardwood floor, the floor doesn’t really have any give to it, so it doesn’t absorb very much of the energy. For example, potential energy can transform to kinetic energy and vice versa or mechanical energy can transform to heat or sound energy. When it hits the ground, the ball and the.

The collision is more elastic. For example, potential energy can transform to kinetic energy and vice versa or mechanical energy can transform to heat or sound energy. When it hits the ground, the ball and the. When a ball hits a soft surface, some of the energy is absorbed by the surface, rather than the ball, deforming. But if you bounce it on something solid, like a hardwood floor, the floor doesn’t really have any give to it, so it doesn’t absorb very much of the energy. Balls bounce more on harder surfaces because hard surfaces provide less absorption of the energy from the ball's impact. If the surface is elastic, then. The concrete floor does not deform as much, and does not dissipate as much energy during this deformation. The higher up it is when you let go, and the harder you push it towards the ground, the more energy it has.

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Why Do Hard Surfaces Absorb Less Energy The higher up it is when you let go, and the harder you push it towards the ground, the more energy it has. If the surface is elastic, then. But if you bounce it on something solid, like a hardwood floor, the floor doesn’t really have any give to it, so it doesn’t absorb very much of the energy. The collision is more elastic. The concrete floor does not deform as much, and does not dissipate as much energy during this deformation. When it hits the ground, the ball and the. The higher up it is when you let go, and the harder you push it towards the ground, the more energy it has. When a ball hits a soft surface, some of the energy is absorbed by the surface, rather than the ball, deforming. For example, potential energy can transform to kinetic energy and vice versa or mechanical energy can transform to heat or sound energy. Balls bounce more on harder surfaces because hard surfaces provide less absorption of the energy from the ball's impact.