WORK AND ENERGY Energy can be changed from one form to another. In any change the total amount of energy before a change is always equal to the total amount.

Slides:

Advertisements

Similar presentations

Work Work is done only when a force moves an object.

Advertisements

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

Unit 4: Alternative Energy Topic 1:Energy Power & Energy 3201.

Energy January 2015 Arsenie. Two groups of Energy Potential Energy (PE) Potential Energy (PE) It isn’t shown through movement It isn’t shown through movement.

Unit 5-2: Energy. Mechanical Energy When mechanical work is done, mechanical energy is put into or taken out of an object. Mechanical energy is a measurement.

Work, Energy, and Power Samar Hathout KDTH 101. Work is the transfer of energy through motion. In order for work to take place, a force must be exerted.

ENERGY LCHS Dr.E.

Energy Chapter 4.

Energy 12/11/14. Chapter 6 – Work and Energy Major Concepts: Work Power Conservative and Non-Conservative Forces Mechanical and Non-Mechanical Energies.

Notes - Energy A. Work and Energy. What is Energy?  Energy is the ability to produce change in an object or its environment.  Examples of forms of energy:

Work and Energy. Outcomes Upon completion of this unit you will be able to: Analyze force problems in terms of energy. Define the term "work" as it relates.

Work is only done by a force on an object if the force causes the object to move in the direction of the force. Objects that are at rest may have many.

Halliday/Resnick/Walker Fundamentals of Physics 8th edition

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

Chapter 6 Work, Energy, Power Work  The work done by force is defined as the product of that force times the parallel distance over which it acts. 

The Meaning of Work And Types of Energy. Types of Energy Kinetic Kinetic energy is energy in the form of motion A moving hockey puck has kinetic energy.

Work, Power, Energy.

Energy, Friction & Efficiency.  Energy = the ability to do work  When work is done, energy is used  Work is the transfer of energy.

Chapter 6 Work and Energy

Kinetic and Potential Energy

Mr. Jean April 27 th, 2012 Physics 11. The plan:  Video clip of the day  Potential Energy  Kinetic Energy  Restoring forces  Hooke’s Law  Elastic.

Work and Power Chapter 5. Work Work is done when a force causes a displacement in the direction of the force W = Fd (force and displacement parallel)

Chapter 7 Energy of a System. Introduction to Energy A variety of problems can be solved with Newton’s Laws and associated principles. Some problems that.

Work and Energy. Work a force that causes a displacement of an object does work on the object W = Fdnewtons times meters (N·m) or joules (J)

Chapter 10 & 11 Energy & Work. Energy The capacity of a physical system to perform work. Can be heat, kinetic or mechanical energy, light, potential energy,

Units: 1Newton . 1 meter = 1 joule = 1J

Energy 4 – Elastic Energy Mr. Jean Physics 11. The plan:  Video clip of the day  Potential Energy  Kinetic Energy  Restoring forces  Hooke’s Law.

Chapter Six  Section 1 Section 1  Section2 Section2  Section 3 Section 3  Section 4 Section 4  Section 5 Section 5  Section 6 Section 6  Section.

Sub title Potential Energy Work Work- Energy Theorem Kinetic Energy Power 200 Work-Power-Energy.

Chapter 6 Notes. Chapter Work  Work is equal to the product of the magnitude of the displacement times the component of the force parallel to the.

Work, Energy and Power   Introduction   Energy is used to do work Mechanical – motion of objects and gravity   Types of energy: solar, chemical,

Physics 221 Chapter 7 Problem 1... Work for slackers! WORK = Force x Distance W = F. D Units: Nm = J Newton meters = Joules Problem 1 : You push a car.

332 – UNIT 6 WORK & ENERGY.

1 Chapter 7 Potential Energy Potential Energy Potential energy is the energy associated with the configuration of a system of two or more interacting.

Work is only done by a force on an

Chapter 5: Work and Energy. Today’s Objectives What do you think? List five examples of things you have done in the last year that you would consider.

Work is only done by a force on an object if the force causes the object to move in the direction of the force. Objects that are at rest may have many.

WORK A force that causes a displacement of an object does work on the object. W = F d Work is done –if the object the work is done on moves due to the.

Work and Energy. Work… …is the product of the magnitude of displacement times the component of force parallel to the displacement. W = F ‖ d Units: N.

Work = Force x Displacement …when F and D are in the same direction (The block would be accelerating !)

Work and Kinetic Energy. What is kinetic energy?  If an object is moving, it has energy. You can think of kinetic energy as the energy of motion, and.

Energy and Its Conservation. Energy Energy is defined as the ability of a body or system of bodies to perform work. Energy can be subdivided into other.

Work and Energy Physics 1. The Purpose of a Force  The application of a force on an object is done with the goal of changing the motion of the object.

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

Conservation of Energy

Work is only done by a force on an object if the force causes the object to move in the direction of the force. Objects that are at rest may have many.

Work done is the energy transferred when a force moves an object over a distance. Since work is energy transferred, the unit for work is the joule (J).

Work, Energy and Power. Energy: Energy can neither be created nor destroyed. It comes in many forms: Kinetic Potential (gravitational, chemical, elastic)

THERMAL Energy Chapter 5.

Chapter 5 Work and Energy. Mechanical Energy  Mechanical Energy is the energy that an object has due to its motion or its position.  Two kinds of mechanical.

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”

Energy Notes Energy is one of the most important concepts in science. An object has energy if it can produce a change in itself or in its surroundings.

Aim: How can we apply work- energy to motion problems? Do Now: In your own words, what does energy mean to you? In your own words, what does energy mean.

Energy Conserved “substance” that quantifies an ability to make changes in other objects The ability to make changes in other objects Shape, temperature,

Work Power Energy. Work Concepts Work (W) ~ product of the force exerted on an object and distance the object moves in the direction of the force. Work.

Kinetic Energy (E K ) Energy an object has due to its motion Potential Energy (E P ) Energy an object has due to its position/location Mechanical Energy.

Energy and Work. Work… Work = Force // x Displacement W = F // x d ** Remember that displacement is the distance AND direction that something moves. It.

Work is only done by a force on an

Work, Energy and Power.

Work Whoa!!! Now I do!!!  I just don’t have any energy 

Chapter 7 Kinetic Energy and Work 第7章動能與功

Work and Energy SPH3U.

Potential Energy and Conservation of Energy.

Work, Power, & Energy.

Energy, Work & Power WORK.

Section 1 Changing Energy

Section B1.4 Work and Energy.

Physics: Work and Energy

Presentation transcript:

WORK AND ENERGY Energy can be changed from one form to another. In any change the total amount of energy before a change is always equal to the total amount after the change. Gravitational Potential Energy Water behind a dam A skier at the top of a mountain

WORK AND ENERGY Energy can be changed from one form to another. In any change the total amount of energy before a change is always equal to the total amount after the change. Principle of conservation of energy: Energy can not be created or destroyed. Gravitational Potential EnergyA skier at the top of a mountain Kinetic Energy Thermal energy

Eg1: Pushing a book across a table against friction: 5N Workdone = F x s = 5N x 1m = 5J [ 1Nm = 1Joule ] Work is done on an object when a force acting on it makes it move: Work done = Force x displacement in the direction of the force  W = F x s cos  (J) (N) (m)

Eg2: Lifting a load against gravity Eg3 : No work is done

1 2 Energy: When you do work on a system, its energy increases. Eg compressing a spring (see graph 1 ). So Energy transferred = workdone = ½ F x extension

When sailing, the wind often exerts a force F on the sails with a small component in the forward direction ( and a large sideways force). s If the boat moves forward a distance s the work done by the wind on the boat = F s cos .