Want this question answered?
rolling friction, air resistance and gravitational force
the object has a potential energy relative to , for example, the bottom of the hill, or the bottom of the slide.
rolling friction, air resistance
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.
rolling friction, air resistance and gravitational force
rolling friction, air resistance and gravitational force
rolling friction, air resistance and gravitational force
the object has a potential energy relative to , for example, the bottom of the hill, or the bottom of the slide.
They will reach at the same time.
rolling friction, air resistance
rolling friction, air resistance and gravitational force
rolling an electric ball down a hill with a magnet at the bottom
To get to the bottom! get it? as in the bum or the bottom of the hill! i love that joke yeah X-D
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.
rolling friction, air resistance and gravitational force
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.
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.