What is Friction Force
Friction is a force that is created whenever two surfaces move or try to move across each other.
1. Friction always opposes the motion or attempted motion of one surface across another surface.
2. Friction is dependent on the texture of both surfaces.
3. Friction is also dependent on the amount of contact force pushing the two surfaces together (normal force).
The force of static friction (fs) cancels out the applied force right up to and including when static friction reaches its maximum (fsmax).
For applied forces greater than the maximum force of static friction the block starts to slip and then the value for friction becomes kinetic friction (fk) and the box is then under a net force so it accelerates to the right.
The force of friction depends upon both surfaces in contact and the normal force. A mathematical relationship can be created here.
In this first example, a block of wood is shown sliding across a wooden table. (notice the cause of this sliding is not shown) Notice that the force of kinetic friction (fk) is equal to 40% of the normal force (FN).
Another way of writing this relationship would be
Now as we compare the first simulation to the next, we find that if the weight of the block is doubled, the normal force doubles, and the force of friction becomes doubled. Once again we find that the force of kinetic friction (fk) is equal to 40% of the normal force (FN)
). Another way of writing this relationship would be Since this value is true for any weight of wood on wood, we say this value represents the coefficient of friction. (It's just the percentage of the normal force that can be friction.)
As we compare the simulation of wood on wood to wood on asphalt, we find that the amount of friction on the block increased for for the same amount of weight. Notice that the force of kinetic friction (fk) is equal to 60% of the normal force (FN) or we could say
Another coefficient can be used to describe the relationship between the maximum force of static friction and the normal force. It's called the coefficient of static friction and its formula looks like The maximum force of static friction is used because static friction has a whole range from zero newtons up to the maximum force of static friction.
The coefficients for static and kinetic friction are listed in some reference tables. The coefficient of static friction is usually a little bit higher than coefficient of kinetic friction for the same two surfaces.
When coefficients are listed they must be given for one surface on another surface (ie wood-on-asphalt).
The higher the coefficient, the greater the force of friction. The table below lists the coefficients for a few common surfaces used in physics.
They are arranged from "sticky" to slippery..
hook velcro-on-fuzzy velcro >6.0 >5.9avg tire-on-dry pavement 0.9 0.8
grooved tire-on-wet pavement 0.8 0.7
glass-on-glass 0.9 0.4
metal-on-metal (dry) 0.6 0.4
smooth tire-on-wet pavement 0.5 0.4
metal-on-metal (lubricated) 0.1 0.05
steel-on-ice 0.1 0.05
steel-on-Teflon 0.05 0.05
You should keep in mind that it isn't possible to give accurate values for the coefficient of frictions due to changing surface smoothness. For example, not all pieces of metal have the same surface smoothness
Some that are highly polished may be more slippery than others that are pitted or scratched. These values are just meant to give you the approximate values.
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