Heat.
Elastic energy is useful in a bouncy ball because it allows the ball to deform and store the energy upon impact, which is then released as the ball bounces back. This enables the ball to bounce to a certain height and continue bouncing, making it a key factor in its design.
The form of energy a bouncy has is, sound energy,elastic energy,and gravitational energy.
The rolling ball has kinetic energy while moving off the table and bouncing on the floor, which is then being gradually converted into other forms of energy, such as sound, thermal energy, and potential energy as it comes to a stop.
When a bouncy ball is dropped, potential energy stored in the ball is converted into kinetic energy as it falls. When the ball hits the ground, some of the kinetic energy is converted back into potential energy as the ball momentarily compresses before bouncing back up.
A bouncing ball has the most potential energy when it is at the top portion of its bounce. Technically... A bouncy ball is at it's max. potential energy when it's still in your hand, but if you mean after it's been thrown, it's when it's at the highest point of that particular bounce.
Heat.
yes
Elastic energy is useful in a bouncy ball because it allows the ball to deform and store the energy upon impact, which is then released as the ball bounces back. This enables the ball to bounce to a certain height and continue bouncing, making it a key factor in its design.
The form of energy a bouncy has is, sound energy,elastic energy,and gravitational energy.
The rolling ball has kinetic energy while moving off the table and bouncing on the floor, which is then being gradually converted into other forms of energy, such as sound, thermal energy, and potential energy as it comes to a stop.
When a bouncy ball is dropped, potential energy stored in the ball is converted into kinetic energy as it falls. When the ball hits the ground, some of the kinetic energy is converted back into potential energy as the ball momentarily compresses before bouncing back up.
The ball stops bouncing due to a loss of energy through various forms such as heat, sound, and deformation of the ball. As the ball bounces repeatedly, these energy losses accumulate, causing the ball to eventually come to a stop.
A bouncing ball has the most potential energy when it is at the top portion of its bounce. Technically... A bouncy ball is at it's max. potential energy when it's still in your hand, but if you mean after it's been thrown, it's when it's at the highest point of that particular bounce.
Yes, you can bounce a bouncy ball in a bounce house. The inflated floor and walls of a bounce house provide a soft and springy surface that is ideal for bouncing a ball. Just be cautious of others around you and ensure the ball is suitable for indoor use.
Tape it, or glue it. If that doesn't work, buy a new ball.
Bouncy ball
The heavy ball has more inertia and the light ball has less energy, hence they do not bounce as high as the bouncy ball. The bouncy ball is designed with a material that can store and quickly release kinetic energy upon impact, leading to a higher bounce.