Friction is resistance to motion along the concerned surfaces.The more the surfaces are uneven that is, they are having bumps and depressions, the more is their tendency to resist the motion.And hence more is the frictional force and vice verse.
Mass affects friction by increasing the normal force between the surfaces, which in turn increases the frictional force. Surface type affects friction by altering the coefficient of friction between the surfaces - rougher surfaces typically have higher coefficients of friction which results in greater frictional forces.
No, weight does not directly affect the amount of friction between an object and a surface. The factors that affect friction are the nature of the surfaces in contact and the force pushing them together. The normal force, which is perpendicular to the surface, is what influences the frictional force, not the weight of the object.
energy
Rolling friction :)
When an object rolls over a surface, the friction that occurs is called rolling friction. Rolling friction is lower than sliding friction, which occurs when an object slides along a surface. Rolling friction results from the deformation of the object and the surface it is rolling on.
The friction that occurs is Rolling Friction
false it is rolling friction
The friction that occurs when an object rolls over a surface is called rolling friction, not round friction. Rolling friction is typically less than sliding friction because the object's motion is smoother and involves less resistance from the surface.
rolling
Yes, magnetism is a force. Any force applied to an object will either increase or decrease the friction between that object and an adjacent surface.
The surface type affects the friction force by altering the roughness and texture of the surfaces in contact. Smoother surfaces generally have lower friction as they allow for easier sliding motion, while rougher surfaces create more resistance to motion, leading to higher friction forces. Additionally, the surface materials can also affect friction due to differences in their coefficients of friction.
sliding