A ball would likely roll farther on grass than on carpet, as grass provides a smoother surface with less friction compared to carpet. The longer blades of grass can also help propel the ball further by reducing resistance.
When a ball is dropped on a carpet, the carpet's fibers compress upon impact. This compression absorbs the kinetic energy of the ball, converting it into other forms of energy such as heat and sound. The energy is then dissipated throughout the carpet, causing the ball to bounce back with less force.
On carpet the friction is more as it is a rough surface therefore it stops or slow down a rolling ball.
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The distance a ball covers on a carpet can be influenced by factors such as carpet thickness, texture, and friction. Thicker carpets can slow down the ball due to increased resistance, while smoother carpets with less friction may allow the ball to roll further. Overall, the carpet's characteristics play a significant role in determining how far the ball will travel.
ASPHALT
A ball rolls farther on grass compared to dirt or carpet due to the lower friction between the ball and the grass surface. The smoother and more even surface of grass reduces the resistance that slows down the ball, allowing it to travel further with less energy loss. In contrast, dirt and carpet surfaces have more friction, causing the ball to decelerate quicker and travel a shorter distance.
A ball would generally roll faster on a sidewalk than on carpet grass due to the smoother and harder surface of the sidewalk providing less friction and resistance. Carpet grass has a rougher texture that can slow down the ball's movement.
Some carpets originate in large carpet mills, where they are woven and glued with big, fast production machines. Others are woven on manual looms by individuals.
Friction between the carpet and the ball gradually slows down the ball's motion by converting its kinetic energy into heat. As the ball loses momentum, its speed decreases until it eventually stops moving.
Although it's difficult to be precise, it's safe to say that a ball is likely to bounce back higher from concrete than from carpet.
Based on the square law of velocity, and assuming the smoothing factor for the elasticity of the carpet follows a binormal law of distribution, we can infer that a standard tennis ball would bounce at about 20cm for a carpet of 5cm width.