It acts as a rolling friction or rolling resistance when it starts to roll on a flat surface , it resists the direction of rotation of the object in both clock wise and anti clock wise direction.
i think its compression and ... sorry i don't know the other one
The two forces acting on a rolling ball are the force of gravity pulling it downward and the normal force exerted by the surface it is rolling on.
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.
The main forces acting on a rolling ball on a table are gravity, which pulls the ball downward, and the normal force exerted by the table, which supports the weight of the ball and provides the necessary upward force for the ball to continue rolling. Friction between the ball and the table also plays a role in slowing down the ball's motion.
When a tennis ball rolls on grass, three main forces act on it: gravitational force pulling it downward, normal force exerted by the grass to support the ball's weight, and rolling resistance caused by friction between the ball and the grass.
i think its compression and ... sorry i don't know the other one
The two forces acting on a rolling ball are the force of gravity pulling it downward and the normal force exerted by the surface it is rolling on.
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.
Generally, only two forces act on a rolling ball. Gravity and friction (there has to be friction because without it, the ball would just slide). These are pointed directly in the x and y directions. If the ball is rolling down a slope, you can use trigonometry to find the force components.
The main forces acting on a rolling ball on a table are gravity, which pulls the ball downward, and the normal force exerted by the table, which supports the weight of the ball and provides the necessary upward force for the ball to continue rolling. Friction between the ball and the table also plays a role in slowing down the ball's motion.
When a tennis ball rolls on grass, three main forces act on it: gravitational force pulling it downward, normal force exerted by the grass to support the ball's weight, and rolling resistance caused by friction between the ball and the grass.
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 state of equilibrium of a rolling ball occurs when the forces acting on it are balanced, resulting in no acceleration. In this state, the ball will continue rolling at a constant speed in a straight line unless acted upon by an external force.
The main factors causing a rolling ball to eventually come to rest are friction and air resistance. As the ball rolls, these forces act in the opposite direction of motion, gradually slowing it down until it stops. Additionally, imperfections on the ground and the ball itself contribute to this deceleration.
Frictional forces between the football and the ground will eventually come to a stop due to the combination of rolling friction and air resistance. These forces act in the opposite direction to the motion of the ball, gradually reducing its speed and bringing it to a halt.
When you throw a ball, two main forces act on it: the force of the throw propelling it forward, and the force of gravity pulling it downward. The throw provides the initial thrust while gravity causes the ball to follow a curved path back to the ground.
Rest position or equilibrium position occurs when all the forces (gravity, the wind, friction etc) exerted on an object are equal.For example, a rolling ball is not in equilibrium because one or more forces (gravity or the force you used to initially move the ball) are greater in strength than the friction (both between the ball and the surface it is rolling on and between the ball and the air).The ball will stop rolling when the force causing it to move 'forwards' is overcome by frictional force. The ball will then be in equilibrium, or at rest.