No, a ball rolling down a ramp is not considered uniform motion because its speed changes as it moves due to the force of gravity. Uniform motion occurs when an object moves in a straight line with a constant speed.
An example would be a ball rolling down a hill. The ball rolling down would show motion.
A ball rolling on the ground slows down due to friction between the ball and the surface it is rolling on. As the ball moves, frictional forces act in the opposite direction of its motion, causing it to lose kinetic energy and gradually slow down. Additionally, air resistance may also contribute to the slowing down of the ball.
The force that opposes the motion of a ball rolling across the ground is called friction. Friction is caused by the contact between the rough surfaces of the ball and the ground, which creates resistance that slows down the ball's motion.
The main force that causes the soccer ball to stop rolling is friction between the ball and the grass surface it is rolling on. As the ball moves, the grass exerts a force in the opposite direction of the ball's motion, gradually slowing it down until it comes to a stop.
If by motion you mean velocity it is non uniform, because the velocity is changing due the acceleration of gravity slowing it down to zero. Then at the maximum height motion is reversed and it accelerates downward back to its original speed but in the opposite direction.
A ball rolling down a hill.
An example would be a ball rolling down a hill. The ball rolling down would show motion.
A ball rolling on the ground slows down due to friction between the ball and the surface it is rolling on. As the ball moves, frictional forces act in the opposite direction of its motion, causing it to lose kinetic energy and gradually slow down. Additionally, air resistance may also contribute to the slowing down of the ball.
Since a ball is a sphere the motion it makes is rolling. The rolling happens on the ground and in the air.
The force that opposes the motion of a ball rolling across the ground is called friction. Friction is caused by the contact between the rough surfaces of the ball and the ground, which creates resistance that slows down the ball's motion.
The main force that causes the soccer ball to stop rolling is friction between the ball and the grass surface it is rolling on. As the ball moves, the grass exerts a force in the opposite direction of the ball's motion, gradually slowing it down until it comes to a stop.
If by motion you mean velocity it is non uniform, because the velocity is changing due the acceleration of gravity slowing it down to zero. Then at the maximum height motion is reversed and it accelerates downward back to its original speed but in the opposite direction.
Linear motion is motion along a straight line, where an object travels in one direction with constant speed. It is characterized by the object's displacement changing at a constant rate over time, resulting in a uniform motion. Examples include a car moving along a straight road and a ball rolling down a ramp.
The main forces acting on a rolling ball are gravity, which pulls the ball downward, and normal force, which acts perpendicular to the surface the ball is rolling on. Additionally, there is friction force between the ball and the surface, which helps propel the ball forward or slow it down depending on the direction of motion.
it has momentum due to its mass and velocity. The rolling motion creates kinetic energy that makes it difficult to slow down or stop abruptly. friction between the ball and the surface also plays a role in resisting its motion.
The energy of a ball rolling down a hill is a combination of its kinetic energy, which comes from its motion, and potential energy, which comes from its position in the gravitational field. As the ball rolls down the hill, its potential energy decreases and is converted into kinetic energy, resulting in an increase in its speed.
The force of friction between the ball and the ground is the unbalanced force that stops a ball from rolling. This force acts in the opposite direction of the ball's motion, causing it to slow down and eventually come to a stop.