Presentation is loading. Please wait.

Presentation is loading. Please wait.

Multiple Object Systems 1. Analyze the system as one object. 2. Analyze each object individually. 3. Create multiple equations to solve for multiple unknowns.

Published byNatalie Davidson Modified over 8 years ago

Similar presentations

Presentation on theme: "Multiple Object Systems 1. Analyze the system as one object. 2. Analyze each object individually. 3. Create multiple equations to solve for multiple unknowns."— Presentation transcript:

1 Multiple Object Systems 1. Analyze the system as one object. 2. Analyze each object individually. 3. Create multiple equations to solve for multiple unknowns. If the system has acceleration a, then each body in the system has acceleration a.

2 Sample Three blocks on a frictionless horizontal surface are in contact with each other. A force F = 96.0 N is applied to block A (m a = m b = m c = 12.0 kg) a) Determine the acceleration of the system. b) The force of contact (F n ) between each block.

3 Sample Three blocks on a frictionless horizontal surface are in contact with each other. A force F = 96.0 N is applied to block A (m a = m b = m c = 12.0 kg) a) Determine the acceleration of the system. b) The force of contact (F n ) between each block.

4 Atwood Machines The use of two or more objects to produce an acceleration of the system. Usually involves a pulley.

5 Sample Determine the acceleration of this system as well as the tension in the rope?

6 Sample a) Determine the acceleration of the system shown. b) Determine the tension in the rope during the acceleration. c) Determine the speed of the system after the bucket has fallen 1.5 m.

7 Friction Friction is a force that opposes relative motion between objects in contact. If the objects are moving relative to one another, the friction is called kinetic. If the objects are not moving relative to one another, the friction is called static.

8 Kinetic Friction Friction is caused by the roughness of the surfaces. If there is relative motion (i.e. sliding) kinetic friction will oppose that motion.

9 Kinetic Friction

10 Coefficients of Friction

11 Sample A 20. kg block of ice is to be pulled by a force of 200. N at 25° to the horizontal as shown. There is a coefficient of friction of 0.15 between the ice and surface. Determine the acceleration of the ice.

12 Sample – Inclined Plane w/o Friction A skier is sliding down a snowy slope inclined at an angle of 30°. Ignoring friction, determine the rate of the acceleration down the incline.

13 Sample – Inclined Plane w/ Friction A skier is sliding down a snowy slope inclined at an angle of 30°. If the coefficient of friction between the skis and the snow is 0.2, determine the rate of the acceleration down the incline.

14 Sample A block slides down an inclined plane at a constant velocity. What angle is the inclined plane if the coefficient of kinetic friction is µ k ?

Download ppt "Multiple Object Systems 1. Analyze the system as one object. 2. Analyze each object individually. 3. Create multiple equations to solve for multiple unknowns."

Similar presentations

Lets Practice Drawing FBD’s and Solving Problems

Lets Practice Drawing FBD’s and Solving Problems
No Strings Attached: Normal Forces, Force Vectors, Strings, Springs and Pulleys Chapter 6.1-6.3 Important Vocabulary: Normal Force Contact Force Tension.

No Strings Attached: Normal Forces, Force Vectors, Strings, Springs and Pulleys Chapter Important Vocabulary: Normal Force Contact Force Tension.
Newton’s Laws of Motion and Free Body Analysis

Newton’s Laws of Motion and Free Body Analysis
A bicycle has a mass of kg, and its rider has a mass of kg

A bicycle has a mass of kg, and its rider has a mass of kg
Applications of Newton’s Laws

Applications of Newton’s Laws
Introduction to Friction

Introduction to Friction
When a car accelerates forward on a level roadway, which force is responsible for this acceleration? State clearly which.

When a car accelerates forward on a level roadway, which force is responsible for this acceleration? State clearly which.
Applying Newton’s Laws. A systematic approach for 1 st or 2 nd Law Problems 1.Identify the system to be analyzed. This may be only a part of a more complicated.

Applying Newton’s Laws. A systematic approach for 1 st or 2 nd Law Problems 1.Identify the system to be analyzed. This may be only a part of a more complicated.
PHYSICS 231 INTRODUCTORY PHYSICS I

PHYSICS 231 INTRODUCTORY PHYSICS I
Friction.

Friction.
A block is launched up a frictionless 40° slope with an initial speed v and reaches a maximum vertical height h. The same block is launched up a frictionless.

A block is launched up a frictionless 40° slope with an initial speed v and reaches a maximum vertical height h. The same block is launched up a frictionless.
Newton’s Laws of Motion Problems MC Questions

Newton’s Laws of Motion Problems MC Questions
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.
Inclined Plane Problems

Inclined Plane Problems
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.
Chapter 5 Forces in Two Dimensions Vectors Again! How do we find the resultant in multiple dimensions? 1. Pythagorean Theorem- if the two vectors are at.

Chapter 5 Forces in Two Dimensions Vectors Again! How do we find the resultant in multiple dimensions? 1. Pythagorean Theorem- if the two vectors are at.
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.
A 6. 0-kg object undergoes an acceleration of 2. 0 m/s2

A 6. 0-kg object undergoes an acceleration of 2. 0 m/s2
Newton’s Laws of Motion

Newton’s Laws of Motion
Newton’s Laws - continued Friction, Inclined Planes, N.T.L., Law of Gravitation.

Newton’s Laws - continued Friction, Inclined Planes, N.T.L., Law of Gravitation.

Similar presentations

Ads by Google