Presentation is loading. Please wait.

Presentation is loading. Please wait.

Newton’s Laws Applications. 2 nd Law Procedure 1. Draw a force or free body diagram. 2. Set up ΣF = ma equations for each dimension. 3. Use kinematics.

Published byFranklin Quinn Modified over 8 years ago

Similar presentations

Presentation on theme: "Newton’s Laws Applications. 2 nd Law Procedure 1. Draw a force or free body diagram. 2. Set up ΣF = ma equations for each dimension. 3. Use kinematics."— Presentation transcript:

1 Newton’s Laws Applications

2 2 nd Law Procedure 1. Draw a force or free body diagram. 2. Set up ΣF = ma equations for each dimension. 3. Use kinematics if necessary. 4. Substitute known quantities. 5. Calculate the unknown quantities.

3 A Mass m hangs by a cable from the bottom of an elevator. What is the tension in the cable when the elevator is stopped at a floor? A. g B. mg C. Greater in magnitude than mg D. Less magnitude than mg E. 0 m

4 Tension (elevator) The sum of the forces must be zero or the mass would accelerate! M T MgMg

5 A Mass m hangs by a cable from the bottom of an elevator. What is the tension in the cable when the elevator accelerates upward? A. g B. mg C. Greater in magnitude than mg D. Less magnitude than mg E. 0 m

6 Tension (elevator) T must be greater than mg in order to result in an upward acceleration! M T MgMg

7 A Mass m hangs by a cable from the bottom of an elevator. What is the tension in the cable when the elevator is moving at constant speed between floors? A. g B. mg C. Greater in magnitude than mg D. Less magnitude than mg E. 0 m

8 Tension (elevator) The sum of the forces must be zero because mass is not accelerating! M T MgMg

9 A Mass m hangs by a cable from the bottom of an elevator. What is the tension in the cable when the elevator is slowing down at the top floor? A. g B. mg C. Greater in magnitude than mg D. Less magnitude than mg E. 0 m

10 Tension (elevator) Net force must point down in order to accelerate down M T MgMg

11 A Mass m hangs by a cable from the bottom of an elevator. What will the tension in the cable be if it comes dettached from the elevator? A. g B. mg C. Greater in magnitude than mg D. Less magnitude than mg E. 0 m

12 Tension (elevator) No opposing force! (weightless???) M MgMg

13 “Magic” pulleys simply bend the coordinate system. Pulley problems m1m1 m2m2

14 -x x “Magic” pulleys simply bend the coordinate system. Pulley problems m1m1 m2m2 m1gm1g N T T m2gm2g  F = ma m2gm2g = (m 1 +m 2 )a

Download ppt "Newton’s Laws Applications. 2 nd Law Procedure 1. Draw a force or free body diagram. 2. Set up ΣF = ma equations for each dimension. 3. Use kinematics."

Similar presentations

The Atwood Machine Two masses suspended over a pulley. m2 m1.

The Atwood Machine Two masses suspended over a pulley. m2 m1.
Newton’s Laws and two body problems

Newton’s Laws and two body problems
Unbalanced Forces.

Unbalanced Forces.
Section 4-7 Solving Problems with Newton’s Laws; Free Body Diagrams

Section 4-7 Solving Problems with Newton’s Laws; Free Body Diagrams
Physics 106: Mechanics Lecture 04

Physics 106: Mechanics Lecture 04
Follow the same procedure as other force problems, but keep in mind: 1) Draw a free body diagram for EACH object or for each junction in a rope.

Follow the same procedure as other force problems, but keep in mind: 1) Draw a free body diagram for EACH object or for each junction in a rope.
Review Chap. 5 Applying Newton’s laws

Review Chap. 5 Applying Newton’s laws
Net Force Contents: What is the Net force Using Newton’s Second law with more than one forceUsing Newton’s Second law with more than one force Whiteboard.

Net Force Contents: What is the Net force Using Newton’s Second law with more than one forceUsing Newton’s Second law with more than one force Whiteboard.
 Friction opposes motion  Friction is dependent on the texture of the surfaces  Friction is dependent on normal force motionfriction.

 Friction opposes motion  Friction is dependent on the texture of the surfaces  Friction is dependent on normal force motionfriction.
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.
Do Now: 1. Draw a free body diagram (all the forces) acting on a water skier being pulled by a boat. 2. What is the net force acting on this object?

Do Now: 1. Draw a free body diagram (all the forces) acting on a water skier being pulled by a boat. 2. What is the net force acting on this object?
Lecture 14 Monday, September 29 Using Newton’s Laws.

Lecture 14 Monday, September 29 Using Newton’s Laws.
Lecture 4 Monday: 26 January 2004 Newton’s Laws of Motion.

Lecture 4 Monday: 26 January 2004 Newton’s Laws of Motion.
NEWTON'S LAWS OF MOTION There are three of them.

NEWTON'S LAWS OF MOTION There are three of them.
C. Newton’s Laws & Forces AP Physics

C. Newton’s Laws & Forces AP Physics
Chapter 6 Force and Motion.

Chapter 6 Force and Motion.
Applications & Examples of Newton’s 2nd Law

Applications & Examples of Newton’s 2nd Law
Newton’s Laws

Newton’s Laws
Newton’s Second Law In this chapter we investigate the effect of a net force on a mass. Newton’s Second Law is: Whenever an unbalanced force acts on a.

Newton’s Second Law In this chapter we investigate the effect of a net force on a mass. Newton’s Second Law is: Whenever an unbalanced force acts on a.
Solving Problems with Newton’s Laws

Solving Problems with Newton’s Laws

Similar presentations

Ads by Google