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You need two different materials to determine the coefficient of friction. Without another material you cannot know what the coefficient of friction is.
Over 9000!
Rubber has more friction than an ice cube. Ice has almost no friction what so ever.
Depends on the other surface. Coefficients of friction are generally tabulated for pairs of materials. Emery cloth on Teflon, for example, will have a lower coefficient of friction than emery cloth on rubber.
It doesn't work that way - friction is not something that is "produced". The way it works is that you have a coefficient of friction for two surfaces that are in contact. Then you use that coefficient of friction, and multiply it by the normal force, to calculate the actual FORCE of friction.For the coefficient of friction, you need to specify a PAIR of substances; for example, carpet against glass would probably have less friction than carpet against rubber.
You need two different materials to determine the coefficient of friction. Without another material you cannot know what the coefficient of friction is.
Over 9000!
Rubber has more friction than an ice cube. Ice has almost no friction what so ever.
Rubber will have a high coefficient of friction on most surfaces, but we cannot know whether there is more or less friction unless we have something to compare it to.
Depends on the other surface. Coefficients of friction are generally tabulated for pairs of materials. Emery cloth on Teflon, for example, will have a lower coefficient of friction than emery cloth on rubber.
It doesn't work that way - friction is not something that is "produced". The way it works is that you have a coefficient of friction for two surfaces that are in contact. Then you use that coefficient of friction, and multiply it by the normal force, to calculate the actual FORCE of friction.For the coefficient of friction, you need to specify a PAIR of substances; for example, carpet against glass would probably have less friction than carpet against rubber.
Check the following webiste and scroll down the large coefficient of friction table. http://www.roymech.co.uk/Useful_Tables/Tribology/co_of_frict.htm The table contains COF valus for rubber on cement in both wet and dry conditions. Also, understand that rubber is a considerably soft material, the COF is easily effected by the amount of normal force, the temperature, etc. Hope this helps.
A high coefficient of friction between the rubber bottom of the shoe and most types of terrain.
quality of the Surface is affected to the Coefficient of friction
No. Coefficient of friction is not measured in units.
The strength of the force of friction depends on the types of surfaces involved and on how hard the surfaces push together.
Limiting friction is just the maximum static friction force (if you go over that point static friction becomes kinetic friction).Let f = frictional force,c = coefficient of frictionN = Normal forcefmax = cN = limiting frictionAlthough the term coefficient of limiting friction is not really used, I'd assume it would just be "c" (it's a coefficient after all). So they would be the same.If you meant is coefficient of friction the same as limiting friction, than the answer is no. Coefficient of friction is just the "c" in the equation. Limiting friction however is the product of the coefficient and the normal force.