The force that opposes the motion of two surfaces sliding against each other.

The force that opposes the start of motion between two surfaces in contact.

A dimensionless quantity representing the 'roughness' between two surfaces in kinetic friction. It relates the kinetic friction force to the normal force.

A dimensionless quantity representing the 'stickiness' between two surfaces in static friction. It relates the maximum static friction force to the normal force.

The force exerted by a surface that is supporting the weight of an object. It acts perpendicular to the surface.

A force that opposes the motion of surfaces sliding against each other.

A force that prevents surfaces from slipping when they are at rest relative to each other.

An empirical value that depends on the materials of the contacting surfaces, used to calculate kinetic friction.

An empirical value that depends on the materials of the contacting surfaces, used to calculate the maximum static friction force.

The force acting perpendicular to the surface of contact.

Increasing the normal force increases the magnitude of the kinetic friction force.

The object begins to move, and kinetic friction takes over.

Friction does negative work, converting kinetic energy into thermal energy, thus reducing the total mechanical energy.

Static friction between the tire and the road provides the centripetal force needed for circular motion.

It requires a greater force to initiate movement between the surfaces.