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a) Potential energy = mgh
a) Potential energy = mghKinetic energy = 0
a) Potential energy = mghKinetic energy = 0b) When the ball hits the ground, it is pressed with a force of gravity and other forces that was exerted on it. Due to these forces it's shape is deformed and to retain back its shape, its elastic nature exerts the same amount of force that deformed it. So the ball bounces until it gains back its shape.
a) Potential energy = mghKinetic energy = 0b) When the ball hits the ground, it is pressed with a force of gravity and other forces that was exerted on it. Due to these forces it's shape is deformed and to retain back its shape, its elastic nature exerts the same amount of force that deformed it. So the ball bounces until it gains back its shape.c) The answer lies in how far the ball has dented inward due to its collision with the floor. As it falls, the ball converts energy stored in the force of gravity—gravitational potential energy—into energy of motion—kinetic energy. By the time it reaches the floor, the ball is traveling quickly and it hits the floor hard.
a) Potential energy = mghKinetic energy = 0b) When the ball hits the ground, it is pressed with a force of gravity and other forces that was exerted on it. Due to these forces it's shape is deformed and to retain back its shape, its elastic nature exerts the same amount of force that deformed it. So the ball bounces until it gains back its shape.c) The answer lies in how far the ball has dented inward due to its collision with the floor. As it falls, the ball converts energy stored in the force of gravity—gravitational potential energy—into energy of motion—kinetic energy. By the time it reaches the floor, the ball is traveling quickly and it hits the floor hard.d) as the ball falls, its potential energy is converted to kinetic energy. ... This is because the ball had an inelastic collision with the ground. After a few bounces, it stops bouncing completely. The energy has left the ball!
a) Potential energy = mghKinetic energy = 0b) When the ball hits the ground, it is pressed with a force of gravity and other forces that was exerted on it. Due to these forces it's shape is deformed and to retain back its shape, its elastic nature exerts the same amount of force that deformed it. So the ball bounces until it gains back its shape.c) The answer lies in how far the ball has dented inward due to its collision with the floor. As it falls, the ball converts energy stored in the force of gravity—gravitational potential energy—into energy of motion—kinetic energy. By the time it reaches the floor, the ball is traveling quickly and it hits the floor hard.d) as the ball falls, its potential energy is converted to kinetic energy. ... This is because the ball had an inelastic collision with the ground. After a few bounces, it stops bouncing completely. The energy has left the ball!Hope this will help you
a) Potential energy = mghKinetic energy = 0b) When the ball hits the ground, it is pressed with a force of gravity and other forces that was exerted on it. Due to these forces it's shape is deformed and to retain back its shape, its elastic nature exerts the same amount of force that deformed it. So the ball bounces until it gains back its shape.c) The answer lies in how far the ball has dented inward due to its collision with the floor. As it falls, the ball converts energy stored in the force of gravity—gravitational potential energy—into energy of motion—kinetic energy. By the time it reaches the floor, the ball is traveling quickly and it hits the floor hard.d) as the ball falls, its potential energy is converted to kinetic energy. ... This is because the ball had an inelastic collision with the ground. After a few bounces, it stops bouncing completely. The energy has left the ball!Hope this will help you Please mark me as the brainliest