Friction AP Physics 1. Fun with Friction Friction is a force that resists the motion between two objects in contact with one another. For a fancier definition,

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Presentation transcript:

Friction AP Physics 1

Fun with Friction Friction is a force that resists the motion between two objects in contact with one another. For a fancier definition, try this: Friction  force caused by interaction of a body with its surroundings.

Causes of Friction The electrons of the two surfaces in contact with one another The surfaces themselves Deformation of the surface

Why Friction…Why?! Is friction bad? Yes! If friction good? Yes!

Forces involved in Friction The weight of the object which pushes it down onto the surface it sits upon. This is Fg (or mg), the weight vector. The force exerted on the object by the surface, pushing it perpendicular to the surface. This is, of course, our old friend, the normal force, n. The force that is pulling the object (or pushing it). This is called the applied force, F. The frictional force, parallel to the surface and opposing the applied force, f. If the surface is horizontal and there are no other vertical forces n = Fg. The normal force, n, is always perpendicular to the surface. If F is greater than f, the object must accelerate with a net force of F – f. If f is greater than F, the object won't move at all. If f = F then the object is moving at a constant speed (or is at rest) as the net force on the object is zero.

Types of Friction Sliding Friction Rolling Friction Friction caused by passing through fluids

Figuring Friction When an object is at rest, it takes a larger force to make it move than it takes to keep it moving once it’s got going. Resting objects have to have their static friction overcome before they can move. f s  static force of friction If an object has a force applied to it but remains at rest, then fs = F. The static frictional force can have a max value of F. Moving objects require an applied force to keep them moving that overcomes the kinetic force of friction. Kinetic is based on a Greek word and means “moving”. f k  kinetic force of friction. If the object moves, then the applied force has to be greater than the static frictional force (to get it started) and must be as big or bigger than the kinetic frictional force.

Kinetic friction is always smaller than static friction. This is because an object at rest on a surface has its microscopic surfaces embedded in the surface. Also, the electrons form their little bonds (as mentioned before), and you have the depression deal. When an object is in motion, you just have the rough surfaces bouncing off each other. The electrons don’t have time to set up bonds, so that force is near zero, and the depression thing gets eliminated or rendered pretty insignificant. Therefore the kinetic frictional force is always less than the static frictional force.

Finding the Frictional Force Finding the frictional force is pretty simple. The frictional force is proportional to the normal force. Since there are two types of friction, static and kinetic, we have two equations:  s  coefficient of static friction  k  coefficient of kinetic friction The value of the coefficients depends on the two surfaces in contact with one another. These values are found by experiment. Useful tables can sometimes be found that have the different coefficient values for common materials worked out and ready for use by the enterprising physicist.

A 25.0 N wood block is pulled across a wooden table at constant speed. What is the force needed to do this? For the coefficient of kinetic friction use Since everything is flat and there are no extra vertical forces, the normal force equals the weight of the block. Knowing the normal force, we can calculate the value of the frictional force, which is, of course, equal to the applied force.

You pull a 65.0 kg crate of mass m across the floor with a force F at an angle of 34.0 . The coefficient of friction between the surfaces is If the crate moves at a constant speed, what is the applied force?

We also know that: We now substitute the value for n found in the first equation into the friction equation : We substitute in the value for the frictional force into the equation for the sum of the horizontal forces and solve the thing for the applied force:

A 15.0 kg block slides down a ramp at constant speed. The elevation angle is 42.5 . What is the coefficient of kinetic friction?  Fx = fk – mg sin  = 0fk = mg sin  We know that the force of friction is also: Also n = mg cos  so