Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lab 5-6C: Friction on an Incline. Lab Recap: Friction µ s > µ k for the same 2 materials µ s and µ k do not change on an incline If constant velocity.

Published byMagnus Cobb Modified over 9 years ago

Similar presentations

Presentation on theme: "Lab 5-6C: Friction on an Incline. Lab Recap: Friction µ s > µ k for the same 2 materials µ s and µ k do not change on an incline If constant velocity."— Presentation transcript:

1 Lab 5-6C: Friction on an Incline

2 Lab Recap: Friction µ s > µ k for the same 2 materials µ s and µ k do not change on an incline If constant velocity downward, F f = F // = W x if no other forces acting in motion direction µ s and µ k unaffected by changes in surface area of contact

3 1. How can you find μ s easiest? Tug horizontally with known amount of force. Slowly increase force applied until object starts to slide Maximum force applied = maximum friction that can be created. μ s = F f / F N

4 2. How else can you find μ s ? Make plank into incline and set block on it. Slowly raise incline until object starts to slide Use angle of repose equation for static friction: μ s = tan Θ

5 3. What are two ways to… (a)Lower the μ k value between block and incline? (b)Raise the μ k value between block and incline?

6 Rolling friction μ r is usually much lower than μ k for same two materials Ff r does not increase with increased speed 4. Describe how you would find the coefficient of rolling, static, and kinetic friction between tires and road for the red cart!

7 5. What is the height that a block will rise if it is given a 1.5 m/s push up an inclined plane that has μ k = 0.40 with the block if the angle of inclination is 60⁰?

8 Vertical Acceleration Problems Ch 6 Notes

9 Free Fall with Drag Forces Acceleration in free fall is at its maximum when the falling object is at its slowest As relative velocity increases, so does F D V-t graph tends to horizontal as time wears on Y-t graph becomes more and more linear as time wears on a = 0 m/s 2 when terminal speed is reached. More in a few weeks….differential equation

10 Elevator Problems There is always F G acting on an object in an elevator or the elevator itself There is always a F T from a cable (or cables) holding the elevator up. There sometimes are F f forces restricting relative motion. When constant velocity up or down, no net force in the y-direction

Download ppt "Lab 5-6C: Friction on an Incline. Lab Recap: Friction µ s > µ k for the same 2 materials µ s and µ k do not change on an incline If constant velocity."

Similar presentations

APC -Unit 2. 2 nd Law A 72kg person stands on a scale which sits on a floor of elevator. It starts to move from rest upward with speed v(t) = 3t +

APC -Unit 2. 2 nd Law A 72kg person stands on a scale which sits on a floor of elevator. It starts to move from rest upward with speed v(t) = 3t +
Applications of Newton’s Laws

Applications of Newton’s Laws
Friction Two or more objects in contact moving past each other will slow each other down. The force which causes them to slow down is friction. Friction:

Friction Two or more objects in contact moving past each other will slow each other down. The force which causes them to slow down is friction. Friction:
Friction Friction is a force that opposes the motion, or tendency of motion, of an object. Friction is caused by the electromagntic interactions of particles.

Friction Friction is a force that opposes the motion, or tendency of motion, of an object. Friction is caused by the electromagntic interactions of particles.
Newton’s Laws of Motion. HFinks '072 6/2/2015 Basic Concepts  Force – push or pull on an object - Vector quantity  Mass – amount of matter in a body.

Newton’s Laws of Motion. HFinks '072 6/2/2015 Basic Concepts  Force – push or pull on an object - Vector quantity  Mass – amount of matter in a body.
Dynamics Why and how an object moves? Newton’s Laws.

Dynamics Why and how an object moves? Newton’s Laws.
T101Q7. A spring is compressed a distance of h = 9.80 cm from its relaxed position and a 2.00 kg block is put on top of it (Figure 3). What is the maximum.

T101Q7. A spring is compressed a distance of h = 9.80 cm from its relaxed position and a 2.00 kg block is put on top of it (Figure 3). What is the maximum.
Everyday Forces Chapter 4 Section 4.

Everyday Forces Chapter 4 Section 4.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.

Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Friction Friction is a force that opposes the motion, or tendency of motion, of an object. Friction is primarily caused by the chemical bonding of molecules.

Friction Friction is a force that opposes the motion, or tendency of motion, of an object. Friction is primarily caused by the chemical bonding of molecules.
FRICTION SLEDS, SANDPAPER, AND LOTS of SLIDING. Friction Any force that resists motion It involves objects that are in contact with each other. This is.

FRICTION SLEDS, SANDPAPER, AND LOTS of SLIDING. Friction Any force that resists motion It involves objects that are in contact with each other. This is.
Aim: How can we calculate static and kinetic friction? A 3.5 kilogram box is being pulled to the right with a force of 15 newtons. The box is moving at.

Aim: How can we calculate static and kinetic friction? A 3.5 kilogram box is being pulled to the right with a force of 15 newtons. The box is moving at.
+ Make a Prediction!!! “Two objects of the exact same material are placed on a ramp. Object B is heavier than object A. Which object will slide down a.

+ Make a Prediction!!! “Two objects of the exact same material are placed on a ramp. Object B is heavier than object A. Which object will slide down a.
Friction is a force that opposes the motion between two surfaces that are in contact  is a force that opposes the motion between two surfaces that are.

Friction is a force that opposes the motion between two surfaces that are in contact  is a force that opposes the motion between two surfaces that are.
Friction.

Friction.
10/1 Friction  Text: Chapter 4 section 9  HW 9/30 “Block on a Ramp” due Friday 10/4  Suggested Problems: Ch 4: 56, 58, 60, 74, 75, 76, 79, 102  Talk.

10/1 Friction  Text: Chapter 4 section 9  HW 9/30 “Block on a Ramp” due Friday 10/4  Suggested Problems: Ch 4: 56, 58, 60, 74, 75, 76, 79, 102  Talk.
Friction There are many forms of friction. This lesson introduces the force laws for static friction, kinetic friction, and rolling friction. Students.

Friction There are many forms of friction. This lesson introduces the force laws for static friction, kinetic friction, and rolling friction. Students.
Physics. Session Opener A recent space shuttle accident occurred because of failure of heat protecting devices. How was this heat generated ?

Physics. Session Opener A recent space shuttle accident occurred because of failure of heat protecting devices. How was this heat generated ?
Unit 2 1D Vectors & Newton’s Laws of Motion. A. Vectors and Scalars.

Unit 2 1D Vectors & Newton’s Laws of Motion. A. Vectors and Scalars.
Chapter N6 Linearly Constrained Motion N6B.1, B.4, B.5, S.1, S.8 Due Monday.

Chapter N6 Linearly Constrained Motion N6B.1, B.4, B.5, S.1, S.8 Due Monday.

Similar presentations

Ads by Google