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The force that stopped it is a resistive force. Assuming there are no external force acting on it, Friction is the cause.
When the ball is rolled, a force is applied. According to Newton's second law, F=ma, There is an acceleration, thus increase in velocity. At that same instance, when the ball moves, a natural resistive force, friction is produced. However at the next instance, there is no force pushing the ball, since friction exists when there is velocity, there will be a net force against the direction of travel. Thus generating a Deceleration. This happens till the ball comes to a stop, when it do not have any more speed. "Friction exists when there is motion" - this is a derivation from Newtons Third Law of motion. when the ball is moving it applies some force on ground so the ground also applies an equal and opposite force on the rolling ball. But since the vector component of the force on the ball that set it into motion is larger it keeps rolling till the time the Frictional force can bring it to an complete halt.
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JudyThe force that causes a ball to roll across the floor is primarily due to friction between the ball and the floor. As the ball's surface interacts with the floor, friction pushes against the direction of motion, allowing the ball to roll. Other factors like gravity and air resistance may also contribute to the ball's motion.
When a ball is rolling across the floor, there's a force of gravity pulling the ball
down towards the floor, and a reaction force pushing the ball up away from the
floor. Those two forces are equal, so they add up to zero, and that's why the ball
doesn't move up or down.
There's no force pushing the ball forward. No force is necessary to keep a moving
object moving. The force that makes it move ended when the ball left your hand.
There is a small force of friction where the ball rubs against the floor. That's the
force that's slowing the ball down, and will make it stop eventually. If there were
no friction, then the ball would never stop.
The force that stopped it is a resistive force. Assuming there are no external force acting on it, Friction is the cause.
When the ball is rolled, a force is applied. According to Newton's second law, F=ma, There is an acceleration, thus increase in velocity. At that same instance, when the ball moves, a natural resistive force, friction is produced. However at the next instance, there is no force pushing the ball, since friction exists when there is velocity, there will be a net force against the direction of travel. Thus generating a Deceleration. This happens till the ball comes to a stop, when it do not have any more speed. "Friction exists when there is motion" - this is a derivation from Newtons Third Law of motion. when the ball is moving it applies some force on ground so the ground also applies an equal and opposite force on the rolling ball. But since the vector component of the force on the ball that set it into motion is larger it keeps rolling till the time the Frictional force can bring it to an complete halt.
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What causes a marble to roll?
A marble rolls due to gravity pulling it downwards and friction between the marble and the surface it is rolling on. When an external force, like a push or incline, is applied to the marble, it starts moving and continues to roll until the force stops or a surface disrupts its movement.
Why does a ball roll faster in grass or dirt?
A ball rolls faster on grass or dirt because there is less friction compared to rough surfaces like concrete. The smoother texture of grass or dirt allows the ball to move more freely with less resistance, resulting in increased speed.
Does a soccerball roll farthur on grass or dirt?
A soccer ball generally rolls farther on grass than on dirt because grass provides a smoother, more even surface for the ball to travel on. Dirt surfaces can be uneven and may slow down the movement of the ball.
Why does a ball rolling on a carpet slow down and stop?
The friction between the ball and the carpet creates a force that opposes the ball's motion, causing it to slow down. As the ball loses kinetic energy, it eventually comes to a stop due to the frictional forces acting on it.
Does gravity and force move balls?
Yes, gravity and force can move balls. Gravity pulls objects downwards toward the Earth, causing them to fall. Force can also be applied to a ball to make it move in a certain direction or accelerate.
