Balls bounce to different heights because of the material they are made of, their elasticity, and the surface they bounce on. The more elastic the material, the higher the bounce. The surface also plays a role, as softer surfaces absorb more of the energy, resulting in a lower bounce. Additionally, factors like air pressure and the angle at which the ball impacts the surface can affect the height of the bounce.
Different types of balls bounce different heights due to variations in their materials, elasticity, and design. Balls made of materials with higher elasticity, such as rubber, tend to bounce higher compared to balls made of less elastic materials. The design of the ball, including the inner pressure and surface texture, also influences how high it bounces.
There are several variables in this problem. Different balls have different degrees of elasticity. And then there are different kinds of surfaces on which balls can bounce. A ball does not bounce the same way on a grass lawn that it does on a concrete floor. Also the description "high in the air" is not precise. Different heights can produce different numbers of bounces.
Balls bounce differently on different surfaces due to differences in elasticity, surface texture, and friction. Softer surfaces absorb more of the ball's energy, resulting in a lower bounce. Smoother surfaces allow for a more predictable bounce, while rough surfaces can cause the ball to bounce in unpredictable directions.
Some examples of balls that don't bounce are medicine balls, bowling balls, and shot put balls.
The height you drop the ball from will affect the bounce height this is because as the drop height increases so does the bounce height it is all to do with energy transfers. Also the waste energy is the sound and heat energy hope this helps.
Different types of balls bounce different heights due to variations in their materials, elasticity, and design. Balls made of materials with higher elasticity, such as rubber, tend to bounce higher compared to balls made of less elastic materials. The design of the ball, including the inner pressure and surface texture, also influences how high it bounces.
There are several variables in this problem. Different balls have different degrees of elasticity. And then there are different kinds of surfaces on which balls can bounce. A ball does not bounce the same way on a grass lawn that it does on a concrete floor. Also the description "high in the air" is not precise. Different heights can produce different numbers of bounces.
Balls bounce differently on different surfaces due to differences in elasticity, surface texture, and friction. Softer surfaces absorb more of the ball's energy, resulting in a lower bounce. Smoother surfaces allow for a more predictable bounce, while rough surfaces can cause the ball to bounce in unpredictable directions.
No medicine balls do not bounce unless you throw them on a trampoline.
Some examples of balls that don't bounce are medicine balls, bowling balls, and shot put balls.
small balls will bounce higher because they have closer particles
The height you drop the ball from will affect the bounce height this is because as the drop height increases so does the bounce height it is all to do with energy transfers. Also the waste energy is the sound and heat energy hope this helps.
All Balls Don't Bounce was created in 1994.
"Bouncing into Science: The Physics and Chemistry of Bounce Balls"
because tennis balls turn in to ice when cold, and then dont bounce.
Some things that bounce but are not balls include rubber bands, springs, and trampolines.
Glass balls tend to bounce higher than rubber balls due to their density and hardness. Glass balls have less energy loss upon impact because they are rigid and less deformable compared to rubber balls. This allows glass balls to retain more of their original kinetic energy during the bounce, resulting in a higher bounce height.