Presentation is loading. Please wait.

Presentation is loading. Please wait.

The concept of energy (and the conservation of energy) is one of the most important topics in physics. Work Kinetic energy Energy approach is simpler than.

Published byMegan Lane Modified over 9 years ago

Similar presentations

Presentation on theme: "The concept of energy (and the conservation of energy) is one of the most important topics in physics. Work Kinetic energy Energy approach is simpler than."— Presentation transcript:

1 The concept of energy (and the conservation of energy) is one of the most important topics in physics. Work Kinetic energy Energy approach is simpler than Newton’s second law. Chapter 7: Work and Kinetic Energy-1 Reading assignment: Chapter 7.6-7.9 Homework: due Monday, Sept 26, 2005 Chapter 7: 30, 41, 43, 58, 65, 68

2 Work (as defined by a physicist) Definition: The work done on an object by an external force is - the ____________ of the component of the force in the direction of the displacement and the magnitude of the ________________.

3 How much work is done when just holding up an object?

4 How much work is done when the displacement is perpendicular to the force?

5 What is the work done by - the gravitational force - the normal force - the force F when the block is displaced along the horizontal. The total work is: - the sum of the work done by all forces - or: d = 10m  = 60° F = 10 N

6 What is the work done when lifting? - By the gravitational force? - By the applied force? Sign convention: W is positive: If F and d are parallel If energy is transferred into the system W is positive: If F and d are antiparallel If energy is transferred out of the system Strongest man lifting 140 kg boulder by 1 m.

7 Work is a ________ quantity. (not a vector) Work has units of newton·meter (N·m) = the joule (J)

8 A man loads a refrigerator onto a truck using a ramp. Ignore friction. He claims he would be doing less work if the length of the ramp would be longer. Is this true? Black board example 7.5

9 Black board example 7.1 A donkey is pulling a cart with a force of magnitude F = 500 N at an angle of 30º with the horizontal. Calculate the work done by the donkey as the cart is pulled for one mile (1648 m). 500 N

10 Work is the scalar product (or ____ product) of the force F and the displacement d. F and d are vectors W is a __________ quantity Definition of dot product and work

11 Scalar product between vector A and B Scalar product is ______________: Definition: _________________ law of multiplication:

12 Scalar Product using unit vectors: We have the vectors A and B: Then:

13 Black board example 7.2 A particle moving in the x-y plane undergoes a displacement d = (2.0i + 3.0j) m as a constant force F = (5.0i + 2.0j) N acts on the particle. Calculate (a)The magnitude of the displacement and the force. (b)The work done by F. (c)The angle between F and d.

Download ppt "The concept of energy (and the conservation of energy) is one of the most important topics in physics. Work Kinetic energy Energy approach is simpler than."

Similar presentations

Work, Energy and Power. Is the student doing work in pushing against the wall?

Work, Energy and Power. Is the student doing work in pushing against the wall?
Announcements Test 1 next Thursday, 5–7 PM Covers material in Chapters 2–5 Review session –Monday 5:30–7 PM, CR 103 –Bring your questions.

Announcements Test 1 next Thursday, 5–7 PM Covers material in Chapters 2–5 Review session –Monday 5:30–7 PM, CR 103 –Bring your questions.
- Homework 1.2 due on Thursday, Jan. 28. - Web page for class is: -Bring i-clicker to class -You are.

- Homework 1.2 due on Thursday, Jan Web page for class is: -Bring i-clicker to class -You are.
Reading Assignment 6.1: A. Push of the workers B.Friction C.Normal force D.Gravity E.Net force Workers of a moving company push a refrigerator over a distance.

Reading Assignment 6.1: A. Push of the workers B.Friction C.Normal force D.Gravity E.Net force Workers of a moving company push a refrigerator over a distance.
Please Compute… A man cleaning a floor pulls a vacuum cleaner with a force of magnitude 50 N at an angle of 30 degrees to the horizontal. Calculate the.

Please Compute… A man cleaning a floor pulls a vacuum cleaner with a force of magnitude 50 N at an angle of 30 degrees to the horizontal. Calculate the.
The concept of energy (and the conservation of energy – chapter 8) is one of the most important topics in physics. Work Kinetic energy Energy approach.

The concept of energy (and the conservation of energy – chapter 8) is one of the most important topics in physics. Work Kinetic energy Energy approach.
Chapter 4 Work and Energy Additional Concepts For Describing Motion.

Chapter 4 Work and Energy Additional Concepts For Describing Motion.
Energy and Energy Transfer

Energy and Energy Transfer
Chapter 7 Kinetic energy and work Key contents Work and kinetic energy Work done by gravity, springs and a variable force Power.

Chapter 7 Kinetic energy and work Key contents Work and kinetic energy Work done by gravity, springs and a variable force Power.
Work and Energy Definition of Work Kinetic Energy Potential Energy

Work and Energy Definition of Work Kinetic Energy Potential Energy
Physics 111: Mechanics Lecture 6

Physics 111: Mechanics Lecture 6
6. Work, Energy, and Power. The Dot Product 3 where  is the angle between the vectors and A and B are their magnitudes. The dot product is the scalar.

6. Work, Energy, and Power. The Dot Product 3 where  is the angle between the vectors and A and B are their magnitudes. The dot product is the scalar.
AP Physics 1 – Unit 5 WORK, POWER, AND ENERGY. Learning Objectives: BIG IDEA 3: The interactions of an object with other objects can be described by forces.

AP Physics 1 – Unit 5 WORK, POWER, AND ENERGY. Learning Objectives: BIG IDEA 3: The interactions of an object with other objects can be described by forces.
Kinetic energy Vector dot product (scalar product) Definition of work done by a force on an object Work-kinetic-energy theorem Lecture 10: Work and kinetic.

Kinetic energy Vector dot product (scalar product) Definition of work done by a force on an object Work-kinetic-energy theorem Lecture 10: Work and kinetic.
Chapter 7 Energy of a System.

Chapter 7 Energy of a System.
12.9 Parallel & Perpendicular Vectors in Two Dimensions

12.9 Parallel & Perpendicular Vectors in Two Dimensions
Tuesday, Sept. 30, 2014PHYS 1443-004, Fall 2014 Dr. Jaehoon Yu 1 PHYS 1443 – Section 004 Lecture #11 Tuesday, Sept. 30, 2014 Dr. Jaehoon Yu Newton’s Law.

Tuesday, Sept. 30, 2014PHYS , Fall 2014 Dr. Jaehoon Yu 1 PHYS 1443 – Section 004 Lecture #11 Tuesday, Sept. 30, 2014 Dr. Jaehoon Yu Newton’s Law.
Work and Energy Conservation Law Work and Energy Work is a force applied to an object that causes the point of application of the force to move through.

Work and Energy Conservation Law Work and Energy Work is a force applied to an object that causes the point of application of the force to move through.
Wednesday, Oct. 6, 2004PHYS 1443-003, Fall 2004 Dr. Jaehoon Yu 1 1.Work done by a constant force 2.Scalar Product of Vectors 3.Work done by a varying force.

Wednesday, Oct. 6, 2004PHYS , Fall 2004 Dr. Jaehoon Yu 1 1.Work done by a constant force 2.Scalar Product of Vectors 3.Work done by a varying force.
Test TODAY at 9:30 am in CNH-104 !!!

Test TODAY at 9:30 am in CNH-104 !!!

Similar presentations

Ads by Google