higher
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Rubber has more friction than an ice cube. Ice has almost no friction what so ever.
The larger the value of μ (aka Mu, the coefficient of friction, the greater the frictional force on an object. For instance, steel on nonlubricated steel has a μ of 0.58 while steel on lubricated steel has a μ of 0.06.
A higher coefficient of friction indicates that two surfaces in contact have a greater resistence. A lower coefficient of friction indicates that the two surfaces in contact have less resistence. Soccer cleats on grass have a greater coefficient of friction than skates on ice.
A higher coefficient of friction indicates that two surfaces in contact have a greater resistence. A lower coefficient of friction indicates that the two surfaces in contact have less resistence. Soccer cleats on grass have a greater coefficient of friction than skates on ice.
higher
higher
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static friction is higher in most cases, if you're talking about the coefficient of static or kinetic friction
The rougher a surface is, the higher the coefficient of static and kinetic friction will be.
Rubber has more friction than an ice cube. Ice has almost no friction what so ever.
The larger the value of μ (aka Mu, the coefficient of friction, the greater the frictional force on an object. For instance, steel on nonlubricated steel has a μ of 0.58 while steel on lubricated steel has a μ of 0.06.
No. Coefficient of friction is not measured in units.
quality of the Surface is affected to the Coefficient of friction
The strength of the force of friction depends on the types of surfaces involved and on how hard the surfaces push together.