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Friction Physics 11 What’s Stopping You?. Humour again..

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Presentation on theme: "Friction Physics 11 What’s Stopping You?. Humour again.."— Presentation transcript:

1 Friction Physics 11 What’s Stopping You?

2 Humour again..

3 What is friction?  The force that opposes the relative motion of two surfaces and acts along the surfaces.  Frictional forces inhibit relative motion between two objects in contact with each other  CONTACT FORCE

4 Expanded…  When two surfaces are at rest and in contact, the surface atoms interact to from relatively strong attractive forces. When you push one object, static friction “pushes back” with exactly the same magnitude as an applied force until the applied force is great enough to break the attractive forces between the surface atoms.  Once the object is in motion, new “bonds” continually form and brake over and over.

5 Two types of friction: 1. Static Friction:  This value represents the relative force necessary to make an object move 2. Kinetic Friction:  This value represents the relative force necessary to keep an object moving at a constant rate

6 Frictional Force Resisting Motion Force Causing the Object to Move Kinetic Region Static Region Max

7 What affects the force of friction?  Type of surfaces in contact Ex: Rubber on rubber verse rubber on ice Coefficient of friction (µ)  Magnitude of the normal force “the surface pushes back against the weight of the object” Ex: Which is easier to move a box full of bricks or a box full of t-shirts?

8 Coefficients of friction:  “stickiness value”  Known values for certain surfaces, determined experimentally  Units = none!

9 Normal Force  The normal force is sometimes—but certainly not always—equal in magnitude and opposite in direction to weight (F g )  When an object lies on a level, non-accelerating surface (rest or constant motion): F g =F N

10 Frictional Forces Occur When Materials are in Contact: W fsfs F N Surfaces in Contact M1M1 F = Force Causing Motion (Pull on Scale) F s = Force of Static Friction (Resists Motion) N = Force Normal Holds Surfaces in Contact W = Weight of Object ( Mass x Gravity)

11 Calculating force of friction:  Direction of F f is always opposite to the direction of motion F f = µ F N  For both static and kinetic friction

12 Ex 1:A glass of water is being pushed along a glass table. If the glass has a mass of 0.675 kg, calculate the force of friction.  F g = mg = (0.675 kg)(9.81) = 6.62 N  F g = F N = 6.62 N  F F = µF N Look up µ in table on pg 140 = (0.40)(6.62) = 2.65N

13 Ex 2: A group of people are pushing a large wooden trunk across a wood floor at a constant velocity and you are exerting a force of 625.0 N, what is the mass of the block?  Constant velocity  F f = F app  F F = µF N Look up µ in table on pg 140 (625) = (0.20)F N 625 = F N 0.20 3125 N = F N  F N = F g = 3125 N

14 Continued…  F g = mg (3125) = m (9.81) 3125 = m 9.81 319 kg = m

15 Practice:  Pg 144 # 5, 6  Pg 151 # 30 - 33  Friction and Forces Sheet

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