The size of a friction force is influenced by the weight of the object and the roughness of the surfaces in contact. A heavier object will exert a greater frictional force, while rougher surfaces create more resistance and increase friction.
The size of a friction force increases with an increase in the normal force pressing the surfaces together. It also increases with a rougher surface texture and an increase in the coefficient of friction between the surfaces.
The force of friction on an object is equal to the coefficient of friction times the force perpendicular to the surface (normal force). When the mass of an object increases, the normal force increases, and the force of friction also increases. However, because the equation does not involve surface area, increasing surface area has no affect on the force of friction.
The size of a frictional force is determined by the roughness of the surfaces in contact and the normal force pushing them together. The frictional force opposes the motion of the objects and increases with the weight of the objects in contact.
Work = Force x Distance Friction is a force usually operating in the opposite direction to the force being applied. Thus friction adds to the size of the force applied and work is increased.
When does friction become inter-atomic force? This is not a simple question to answer, if it has any answer at all. If you think of two deeply corrugated surfaces exactly interlocked with one another, and apply a sideways force, what is the friction component and what would be the force to deform the corrugations to allow movement?
The size of the normal force and coefficient of friction determines the size of frictional force.
The size of a friction force increases with an increase in the normal force pressing the surfaces together. It also increases with a rougher surface texture and an increase in the coefficient of friction between the surfaces.
The force of friction on an object is equal to the coefficient of friction times the force perpendicular to the surface (normal force). When the mass of an object increases, the normal force increases, and the force of friction also increases. However, because the equation does not involve surface area, increasing surface area has no affect on the force of friction.
Friction or any other resistance.
Through push and pull and the other force is friction
The size of a frictional force is determined by the roughness of the surfaces in contact and the normal force pushing them together. The frictional force opposes the motion of the objects and increases with the weight of the objects in contact.
No. The coefficient depends only on the two surfaces which are in contact.
Assuming that the force is great enough to overcome static friction; the force will change the momentum of the object.
Work = Force x Distance Friction is a force usually operating in the opposite direction to the force being applied. Thus friction adds to the size of the force applied and work is increased.
When does friction become inter-atomic force? This is not a simple question to answer, if it has any answer at all. If you think of two deeply corrugated surfaces exactly interlocked with one another, and apply a sideways force, what is the friction component and what would be the force to deform the corrugations to allow movement?
The size of an electric force depends on the amount of charge on the objects involved and the distance between them. The force increases with the magnitude of the charges and decreases as the distance between the charges increases.
Static friction force is the force that opposes the initiation of motion between two surfaces and can vary in magnitude up to a maximum value. Rolling friction force is typically lower than static or sliding friction, as it involves the resistance to rolling motion. The specific forces depend on various factors such as the roughness of the surfaces, the magnitude of the normal force, and any lubrication present.