WORK KINETIC ENERGY THEOREM. THE WORK ENERGY THEOREM Up to this point we have learned Kinematics and Newton's Laws. Let 's see what happens when we apply.

Slides:

Advertisements

Similar presentations

R2-1 Physics I Review 2 Review Notes Exam 2. R2-2 Work.

Advertisements

10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt.

Energy and its Conservation

09-1 Physics I Class 09 Potential Energy and Conservation of Energy.

12-1 Physics I Class 12 Conservative Forces and Potential Energy.

PHYSICS 231 Lecture 11+12: How much energy goes into problems?

12-1 Physics I Class 12 Potential Energy and Conservation of Energy.

Department of Physics and Applied Physics , F2010, Lecture 12 Physics I LECTURE 12 10/18/10.

Work, Energy & Power AP Physics B. There are many different TYPES of Energy. Energy is expressed in JOULES (J) 4.19 J = 1 calorie Energy can be expressed.

Work and Energy Work done by a constant force Work-Energy Theorem and KE Gravitational Potential Energy Conservative Forces vs Non- conservative Forces.

Force, Mass and Momentum. Newton’s Second Law: F = ma 1 newton = 1 kg ∙ 1 m/s² Force: 1 pound = 4.45 newtons Your weight is the force of gravity: F =

The Work Energy Theorem Up to this point we have learned Kinematics and Newton's Laws. Let 's see what happens when we apply BOTH to our new formula for.

Newton’s Laws of Motion 1. If the sum of all external forces on an object is zero, then its speed and direction will not change. Inertia 2. If a nonzero.

Physics Unit Four Forces that Affect Motion. Force A push or a pull. Measured in newtons with a spring scale. 1 newton (N) = 1 kg m/s 2 An apple weighs.

Work, Energy & Power AP Physics 1. There are many different TYPES of Energy. Energy is expressed in JOULES (J) Energy can be expressed more specifically.

Work & Energy Chapters 7-8 Work Potential Energy Kinetic Energy Conservation of Mechanical Energy.

© 2010 Pearson Education, Inc. Lecture Outline Chapter 5 College Physics, 7 th Edition Wilson / Buffa / Lou.

Work, Energy, Power and Conservation Laws. In this week we will introduce the following concepts: o Kinetic energy of a moving object o Work done by a.

Work and Energy Work The work done by a constant force is defined as the product of the component of the force in the direction of the displacement and.

Chapter 6 Work and Energy 6.1 – Work Work Formula & Units Positive & Negative Work 6.2 – Work-Energy Theorem & Kinetic Energy KE Formula & Units 6.3 –

Energy. WORK ENERGY THEOREM For an object that is accelerated by a constant force & moves in the same direction… Lets derive this…

How Force and Motion effect us every day! How can a roller coaster loop upside down and keep the passengers inside?

Force. Something that changes the state of rest or the state of motion of an object. Can be a push or a pull Unit of measure Newtons N.

Newton’s Laws of Motion

Instructions for using this template. Remember this is Jeopardy, so where I have written “Answer” this is the prompt the students will see, and where.

Lecture 10: Work & Energy.

Conservation of Mechanical Energy Mechanical Energy – The sum of Potential and Kinetic Energies ME=PE+KE The conservation of mechanical energy states that.

Work and Energy. Scalar (Dot) Product When two vectors are multiplied together a scalar is the result:

Work, Energy & Power AP Physics 1. There are many different TYPES of Energy. Energy is expressed in JOULES (J) 4.19 J = 1 calorie Energy can be expressed.

Work Readings: Chapter 11.

MS. MORGAN Force. What is a Force? Something that changes the state of rest or the state of motion of an object. Can be a…. push or a pull Unit of measurement:

Pre-AP Physics.  Energy is expressed in JOULES (J)  4.19 J = 1 calorie  Energy can be expressed more specifically by using the term WORK(W) Work =

Physical Modeling, Fall WORK Work provides a means of determining the motion of an object when the force applied to it is known as a function of.

5.2 Kinetic Energy and the Work-Kinetic Energy Theorem ViVi d V f = V FF Given W net we can solve for an object’s change in velocity.

1.4 Forces change motion.

Newton’s Second Law Pages Describe your acceleration if you are in a circular motion. What is the net force of your motion? You are constantly.

Work The work done on an object by a constant force is given by: Units: Joule (J) The net work done on an object is the sum of all the individual “works”

Section 6-3 Gravitational Potential Energy. Warm-Up #1 A sailboat is moving at a constant velocity. Is work being done by a net external force acting.

Energy – the ability to do work W = Fd = m a d V f 2 = V i 2 + 2a  x V f 2 - V i 2 = + 2a  x V f 2 - V i 2 = a  x 2.

N EWTON ’ S L AWS T EST R EVIEW. I F A MASS FEELS A FORCE, IT ALSO EXPERIENCES AN ACCELERATION. I F THE MASS WERE TO DOUBLE, WHILE KEEPING A CONSTANT.

Energy and Work. Work done by a Force Distance x Force x Distance x Force x Distance x Force x Textbook defines work due to a force as the product of.

Unit 7 – Work, Energy, and Power CHAPTER 8 CONCEPTUAL PHYSICS BOOK.

Energy and its Conservation Physics Mrs. Coyle. Part I Mechanical Energy – Potential – Kinetic Work Energy Theorem.

Work W-E Theorem Pt. 1 1 Newton’s Second Law in Terms of Work Conservation of Kinetic Energy Work-Energy Theorem Work-Energy Diagram.

Work, Energy & Power Honors Physics. There are many different TYPES of Energy. Energy is expressed in JOULES (J) 4.19 J = 1 calorie Energy can be expressed.

Energy and its Conservation Physics. Part I Mechanical Energy – Potential – Kinetic Work Energy Theorem.

© 2010 Pearson Education, Inc. Lecture Outline Chapter 5 College Physics, 7 th Edition Wilson / Buffa / Lou.

Work – in the physics sense of the word

Work and Energy Chapter 6.

Work, Energy & Power AP Physics.

Newton’s Laws Of Motion

Newton’s Laws of Motion

Key Terms to use in assessment

Energy and its Conservation

Work, Energy & Power AP Physics B.

Laws of Motion and Energy

Connecting Motion with Forces

Work Who does the most work? Definition of work in physics:

Friction and Normal Force

Newton’s Laws.

Work and Energy.

The Basics of FORCES.

Work, Energy & Power AP Physics B.

Chapter 10 Work and Energy

Chapter 5 Work and energy.

Newton’s Third Law of Motion

Work, Energy and Power.

Warm Up 12/03 Solve for mass:

Presentation transcript:

WORK KINETIC ENERGY THEOREM

THE WORK ENERGY THEOREM Up to this point we have learned Kinematics and Newton's Laws. Let 's see what happens when we apply BOTH to our new formula for WORK! 1.The net work equation 2. Applying Newton's second law 3. Using Kinematic Eq’s 4. An interesting term appears called KINETIC ENERGY or the ENERGY OF MOTION!

The Work Energy Theorem

A 50kg person is riding a skateboard at constant velocity of 6m/s when they go up a 30 o ramp. 1. How high will the person go? (ignore friction) 2. What is the net force acting on the person before going up the ramp? 3. What is the net force acting on the person while going up the ramp?

Conservative Forces: 1.Work does not depend on the path 2.Net work = 0; for a round trip process; The PE i =Pe f 3.Examples: Gravity and Spring forces Non-Conservative Forces 1.Work does depend on path 2.Net work does NOT equal zero 3.Examples: Push or Pull forces, friction