Friction is a force between two surfaces that are sliding, or trying to slide across one another, for example when you try to push a toy car along the.

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Presentation transcript:

Friction is a force between two surfaces that are sliding, or trying to slide across one another, for example when you try to push a toy car along the floor. Friction always works in the direction opposite from the direction the object is moving, or trying to move. It always slows a moving object down. Moving Friction

Friction can be a useful force because it prevents our shoes slipping on the pavement when we walk and stops car tyres skidding on the road.

When an object is in contact with a surface there is a force acting on that object. The component of this force that is parallel to the surface is called the friction force. Friction Force This resistive force is exerted on a moving object due to Always opposite to the movement!! viscosity or other types of frictional property of the medium in or surface on which the object moves.

The force of friction  exerted by a surface to resist the motion of an object  friction is always parallel to the surface and acts in the opposite direction of the object’s attempted motion  the symbol is F f

 Friction is the force acting over the area of contact between two surfaces in the direction opposite that of the motion.  Types of friction forces  Static friction  Kinetic friction

When the two surfaces are not sliding across one another the friction is called static friction. Static Friction The resistive force exerted on the object up to the time just before the object starts moving.

Static Friction  the force exerted on a stationary object by a surface that prevents the object from starting to move (F s )  the object remains at rest because the static friction is equal in magnitude and opposite in direction to the applied force  for the object to move, the applied force must overcome the maximum amount of static friction (F s max )

Kinetic or Dynamic Friction  the force exerted on a moving object by a surface (F k )  acts in the opposite direction of the motion  if applied force is equal in magnitude to the force of friction, the object will move with a constant velocity  if the applied force increases, the object will accelerate

Coefficients of friction  is the ratio of the force of friction to the normal force  symbol is the Greek letter mu (μ) μ= F f / F N  the coefficient of friction has no units or direction since it is a ratio  the coefficient of friction depends only on the types of materials and can only be determined experimentally

 for almost all situations the force required to start an object moving is greater than the force required to keep it moving at a constant velocity  so: F s max > F k  since there are 2 types of friction, there are 2 different coefficients of friction for any two surfaces  coefficient of static friction (μ s )  coefficient of kinetic friction (μ K )

FNFN fsfs F FgFg The Force of Static Friction keeps a stationary object at rest!

FNFN fkfk F FgFg Once the Force of Static Friction is overcome, the Force of Kinetic Friction is what slows down a moving object! Motion

Kinetic Friction Kinetic friction can be modelled as the interaction between identical teeth. The frictional force is spread out over the entire contact surface. The displacement of the point of application of the frictional force is not calculable. Therefore, the work done by the frictional force is not calculable.

 At some point the pulling force will be great enough so that the friction force cannot prevent movement. Friction Force Applied Force Static Dynamic impending motion maximal static friction force

 The coefficient of static friction is expressed as: where  s = coefficient of static friction F normal = normal force F max = maximal static friction force The coefficient of friction is a dimensionless number. It is unaffected by the mass of the object or the contact area. The greater the magnitude of  s the greater the force necessary to move the object.

The Physics of car tires  the magnitude of static friction acting on a rubber tire on a road surface depends on the coefficient of friction and the surface area of contact  race car tires have no treads, so races are sometimes postponed due to rain  race cars use wide tires to increase surface area to prevent slipping through curves

passenger tires  need good traction on all road surfaces under all weather conditions  small and large grooves provide pathways for water and snow to pass beneath the tire while it maintains contact with the road

 There are five main types of friction:  Sliding friction: ice skating  Rolling friction: bowling  Fluid friction (air or liquid): air or water resistance  Static friction: initial friction when moving an object  Kinetic Friction: When body is in motion. What is this unbalanced force that acts on an object in motion?

Force that acts oppose the relative motion of two surfaces High for dry and rough surfaces Low for smooth and wet surfaces

Normal Force F N Friction Force f f Applied Force F Gravity Force F g F g = mg F N = F g f f = F

Static friction Sliding friction Rolling friction

This type of friction is what happens with liquids and gases (In Physics, liquids and gases are both called "fluids". They behave in similar ways.) Fluid friction is also known as "drag". On aircraft it's also called "air resistance". It depends on:- how thick the fluid is (its "viscosity") the shape of the object the speed of the object

F f =  F n Normal force (N) Coefficient of friction Friction force (N)

A 10 N force pushes down on a box that weighs 100 N. As the box is pushed horizontally, the coefficient of sliding friction is Determine the force of friction resisting the motion. We know total force acting on the body in downwards direction is : N = 110 N. So Force of friction (F f ) = µ * F N = 0.25 * 110 = 27.5 N

F f =  s F n Normal force (N) Coefficient of sliding friction Friction force (N)

Friction Friction is a force which acts opposite to motion Caused by irregularities in surfaces in contact Amount depends on the materials involved Occurs in fluids as well as in solids Viscosity in liquids Air resistance in air (similar in other gases) Friction causes the need for applied force to keep constant velocity

Reduce the contact area by using rollers/ball- bearings/wheels Change the surfaces of the materials that are touching by using lubrication eg. Oil Create a cushion of air Eg. Like a hovercraft or air hockey table

Static frictional force: when nothing is sliding Sliding frictional force: when surfaces are sliding Static frictional forces always greater than sliding ones Lubrication provides microscopic rollers between surfaces

Weight of block Decompose Vector Normal Force Friction Force Weight of block Reaction Force From Ramp “Normal” means perpendicular Friction Force = Normal Force  (coefficient of friction) F friction =  F normal