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How can you make a bowling ball and soccer ball have the same gravitational potential energy?
You can make the bowling ball and soccer ball have the same gravitational potential energy by lifting them to the same height above the ground. Gravitational potential energy depends on the mass of the object and the height it is lifted, so as long as both balls are lifted to the same height, they will have the same gravitational potential energy.
Is a soccer ball an object that moves?
Yes, a soccer ball is an object that moves. When kicked or thrown, it travels through the air or bounces along the ground.
What type of energy is made when kicking a soccerball?
When kicking a soccer ball, mechanical energy is produced. This includes both the potential energy of the player's position before kicking the ball, as well as the kinetic energy generated as the ball is propelled forward by the player's foot.
A soccer player kicks a ball into the air and it lands far down the field Which energy conversion occurs as the ball falls from its highest point?
When a soccer player kicks a ball into the air, its kinetic energy is drained through air resistance and by the force of gravity. At its highest point, the ball has all of its vertical kinetic energy converted into potential energy. As the ball falls, this potential energy is converted back into kinetic energy. It should be noted that through the entire process of rising and falling the ball maintained horizontal kinetic energy being dissipated by resistance until it hit the ground and stopped.
How does a soccerball bounce?
A soccer ball bounces due to the elasticity of the material it is made from, typically rubber. When the ball hits the ground, the rubber compresses and stores energy. This energy is then released, causing the ball to bounce back up in the opposite direction.
