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Friction is often associated with opposing the motion of objects, but it can also prevent objects from moving or keep them still. Friction is a force that arises when two surfaces come into contact and try to slide past each other. It acts parallel to the surfaces in contact and opposes any relative motion between them.

When an object is at rest on a surface, there is still the potential for motion due to external forces or factors like gravity. Friction plays a crucial role in counteracting these forces and maintaining the object's position. It creates a resistive force that acts in the opposite direction to the applied force, preventing the object from sliding or moving freely.

To understand this better, consider an object placed on a table. Gravity exerts a downward force on the object, trying to make it slide off the table. However, the static friction force between the object and the table surface acts in the opposite direction, equal in magnitude and opposite in direction to the force applied on the object. As long as the applied force does not exceed the maximum limit of static friction, the object remains stationary. Static friction effectively balances and cancels out the applied force, keeping the object still.

It's important to note that the static friction force can only counteract external forces up to a certain limit. If the applied force exceeds the maximum static friction, the object will start to move, and the frictional force transitions from static friction to kinetic friction. Kinetic friction opposes the motion of sliding objects.

In summary, friction can hold something still by creating a counteracting force that opposes the tendency of an object to move or slide due to external forces. It is not limited to only acting against moving objects but can also act to prevent motion or maintain static equilibrium.

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