A ball slowing down as it rolls up a hill is an example of kinetic energy being converted into potential energy. As the ball moves uphill, it loses kinetic energy which is converted into gravitational potential energy due to its increased height. This conversion causes the ball to slow down.
This is an example of kinetic energy being converted into potential energy as the ball gains height. This is due to the work done against gravity causing the ball to slow down.
Momentum is the product of mass and velocity. When an object slows down, the object reduces in velocity. Since Mass is constant, when velocity reduces momentum reduces. thus momentum can be what stops a rolling object. However, a resistive force the reason for the reduction of velocity and subsequently halting.
An example of when gravity slows down a moving object is when a ball is thrown upwards. As the ball moves against the force of gravity, it gradually loses speed until it comes to a stop at its highest point before falling back down. This decrease in speed is due to the gravitational force acting in the opposite direction to the ball's motion.
If friction decreases, the ball will roll farther since there is less force resisting its motion. Friction between the ball and the surface slows it down, so reducing friction allows the ball to maintain its speed and travel a greater distance.
Potential energy is converted to kinetic energy as the ball rolls down the hill. At the top of the hill, the ball has a higher potential energy due to its position, and as it moves downhill, this potential energy is transformed into kinetic energy of motion.
This is an example of kinetic energy being converted into potential energy as the ball gains height. This is due to the work done against gravity causing the ball to slow down.
The answer is rather simple. Even though a billiard ball is smooth, when it rolls it imparts some of its kinetic energy to the felt covering of the table. That is, the felt heats up a bit as the ball slows down.
friction slows it down
the force of friction with the grass slows it down.
Two come to mind, the ball slows down as it goes further down the alley. as the ball spins, the friction generated causes the ball to curve.
Momentum is the product of mass and velocity. When an object slows down, the object reduces in velocity. Since Mass is constant, when velocity reduces momentum reduces. thus momentum can be what stops a rolling object. However, a resistive force the reason for the reduction of velocity and subsequently halting.
An example of when gravity slows down a moving object is when a ball is thrown upwards. As the ball moves against the force of gravity, it gradually loses speed until it comes to a stop at its highest point before falling back down. This decrease in speed is due to the gravitational force acting in the opposite direction to the ball's motion.
The limiting frictional force is the force that slows down the tennis ball on the roller coaster.
As the ball rises from point 1 to point 3 it slows down - This is True
If friction decreases, the ball will roll farther since there is less force resisting its motion. Friction between the ball and the surface slows it down, so reducing friction allows the ball to maintain its speed and travel a greater distance.
how does increasing the height of a ramp affect how far a ball rolls down the ramp
Potential energy is converted to kinetic energy as the ball rolls down the hill. At the top of the hill, the ball has a higher potential energy due to its position, and as it moves downhill, this potential energy is transformed into kinetic energy of motion.