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When you push the ball at the top of a hill and it accelerate towards the bottom of the hill?
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When you place a ball at the top of a hill and it accelerates towards the bottom of the hill it probably also experiences?
rolling friction, air resistance and gravitational force
How is a ball on a hill gravitational energy?
the object has a potential energy relative to , for example, the bottom of the hill, or the bottom of the slide.
When you place a ball at the top of the hill and it accelerates toward the bottom of the hill it probably also experiences both and?
rolling friction, air resistance
What happens to the potential energy and the energy of a ball as it rolls down a hill from a position of rest at the top of the hill?
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
When you place a ball at the top of a hill and it accelerates toward the bottom of the hill it probably also experiences both and?
rolling friction, air resistance and gravitational force
When you place a ball at the top of a hill and it accelerates towards the bottom of the hill it probably also experiences?
rolling friction, air resistance and gravitational force
When you place a ball at the top of a hill and it accelerates towards the bottom of the hill it probably also experiences both?
rolling friction, air resistance and gravitational force
How is a ball on a hill gravitational energy?
the object has a potential energy relative to , for example, the bottom of the hill, or the bottom of the slide.
Would a large massive ball or a smaller less massive ball reach the bottom of a hill first?
They will reach at the same time.
When you place a ball at the top of the hill and it accelerates toward the bottom of the hill it probably also experiences both and?
rolling friction, air resistance
When you place a ball at the top of a hill and it accelerates toward the bottom of the hill it probably also experiences both and .?
rolling friction, air resistance and gravitational force
What is an activity that includes friction magnetism electricity and gravity?
rolling an electric ball down a hill with a magnet at the bottom
Why did the penguin roll down the hill?
To get to the bottom! get it? as in the bum or the bottom of the hill! i love that joke yeah X-D
What happens to the potential energy and the energy of a ball as it rolls down a hill from a position of rest at the top of the hill?
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
When you place a ball at the top of a hill and it accelerates toward the bottom of the hill it probably also experiences both and?
rolling friction, air resistance and gravitational force
What happens to the potential energy and kinetic energy of a ball as it rolls down a hill from a position of rest at the top of the hill?
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
What happens to the potential energy and the kinetic energy of a ball as it rolls down a hill from a position of rest at the top of a hill?
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
