ENERGY Notes and Key Concepts. Work  An object’s motion is related to both force and how the force acts.  The quantity force X time = impulse  The.

Slides:

Advertisements

Similar presentations

Energy Energy: Energy is the capacity of a body to do work.

Advertisements

Unit 3 Energy and Work.

Unit 7 Energy.  Energy is the ability to do work or cause change. I can work…but I won’t.

Physical Science Chapter 5

9 Energy Energy can change from one form to another without a net loss or gain.

Chapter 8 Energy.

THE NATURE OF ENERGY IPC Notes. ENERGY Energy is involved in every change that occurs Energy can be found in many different forms ex) thermal, electrical,

Created by: Faith Cohen. Energy is the ability to do work or cause a change in direction, speed, shape or temperature of an object.

Work. Energy. Power. Physical work Work (W) is defined as the force (F) times the distance (s) moved in the direction of the force (cos Θ ) NB! Θ is angle.

Forms and Transformations

Work and Power Notes. Work is done when a net force acts on an object and the object moves in the direction of the net force. Work is the product of the.

9 Energy Energy can change from one form to another without a net loss or gain.

Chapter 9 Energy.

Notes on Chapter 8 Work & Energy

Energy By: Cheyanne, Rene, MaryAnne, Taylor, Lyndsay, Nikolas.

Integrated Science Unit 2, Chapter 5.

Tuesday, September 29, 2009 In olden days, something was only considered “doing work” if you were getting tired or sweaty doing it. Make up a definition.

What is Energy?.

Hosted By Mrs. Anicito KE PE Resources Work

Chapter 4.  Ability to cause change  Lots of forms  Light/radiant  Sound  Electrical  Chemical  Heat/thermal  Nuclear  Mechanical.

What is the relationship between kinetic and potential energy?

Energy! Something I’m running out of! Mr. Fox’s 8 th Grade Science.

Energy. EEnergy is all around you! You can hear energy as sound. You can see energy as light. And you can feel it as wind.

Ch. 5 Work and Energy. 5-1 Work W = F X d W net = F net d(cos θ) Work (J) Force (N) distance (m) Work is NOT done on an object unless it moves.

POWER Power – Power = P = ___=___ Units = ( ) = ____ = ___ Sample Problem: A crane lifts an 8000 N beam 75 m to the top of a building in 30 s. How much.

Mechanical Energy Ch. 4. Energy Is the ability to do work. Energy = work Units = Joules (J) James Prescott Joule.

CH 8: Energy. Last chapter: How long a force acts makes a difference in an object’s motion. F x t = Impulse.

Work and Power.

The BIG idea Energy is transferred when a force moves an object. Work and Energy Work is the use of force to move an object. 4.1 Energy is transferred.

Energy! By Amanda Brockbank and Ethan Kessinger Physics Investigation 3.

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

Chapter 9.2 Power. Power vs. Work When carrying a load up some stairs, you do the same amount of work whether you walk or run up the stairs. Whether you.

Potential and Kinetic Energy. What is energy?! Capacity to do work Measured in joules (J)

Ms. Moore 10/1/12.  Energy is required for any change that occurs, no matter how small.  Energy is the ability to cause change.  Examples:  Forms.

ENERGY. Work Work= force x distance W= Fd Unit: Joule (J) We do work when: We exert a force We move something with that force (distance) Work generally.

WORK, ENERGY & POWER. Work  A measure of the amount of energy transformed from one form to another  For example, work is done when energy is used to.

9 Energy Energy can change from one form to another without a net loss or gain.

Chapter 9.2 Power. Power equals the amount of work done divided by the time interval during which the work is done. 9.2 Power.

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

What Is Energy? Ch. 8 Lesson 1. How Are Energy, Work, and Power Related?

Forms of Energy. Energy Energy Energy- The ability to do work Energy- The ability to do work Work- A transfer of energy Work- A transfer of energy Work.

Energy. Potential and Kinetic Energy.. Energy Mechanical Energy: the energy due to the position of something, or the movement of something. Two main forms.

Do Now Nov. 4th In your Do Now Book, list ways that you used energy this morning.

Chapter 8: Energy.

Grab the Girl on a Bike Picture

Energy Physics.

Definitions The scientific definition of work is a force exerted over a distance (work = force · distance) work - The scientific definition of energy is.

Today we will…. Define work and power

Energy Vocabulary Week 1.

What Is Work? Chapter 12 Section 1.

Exploring Energy.

Chapter-6 Energy and Oscillations

Energy Energy is defined as the capacity to do work.

WORK, POWER AND ENERGY! (ACCORDING TO PHYSICS)

Work Power Energy.

Potential and Kinetic Energy

Unit 3 - Energy Learning Target 3.2 – Be able to use the equations for Potential Energy & Kinetic Energy.

Energy can change from one form to another without a net loss or gain.

Chapter 5, Section One Pages

What is Energy?.

Potential and Kinetic Energy

Bell work What do you think energy is? (your definition)

Energy transfers & efficiency

Energy in Action vs. Stored Energy

Work Work is done when a force is exerted on an object and the object moves a distance x. Work = force ·distance W = F · d units: N·m = Joule Work is.

Introducing potential energy and kinetic energy

Ch 4 Energy Kinetic Energy (KE) – the energy a moving object has because of its motion; depends on mass and speed of object KE = mv2/2 Joule – SI unit.

This is the “energy of motion”. Moving objects have this form of energy. Kinetic Energy.

Presentation transcript:

ENERGY Notes and Key Concepts

Work  An object’s motion is related to both force and how the force acts.  The quantity force X time = impulse  The quantity force X distance = work

WORK Two factors are considered when work is done 1. The application of a force 2. The movement of something by that force  The work done on an object by an applied force is the product of the force and the distance through which the object moved  Work=force x distance W=Fd

POWER  Power is the rate at which work is done  Power=work done/time interval  The unit of power is the joule per second, also known as the watt  One watt (W) of power is expended when one joule of work is done in one second  1 Kilowatt (kW)= 100 watts  1 megawatt (MW) = one million watts

Metric System vs. United States  In the metric system, automobiles are rated in kilowatts  In the U.S, we rate engines in units of horsepower and electricity in kilowatts  One horsepower (hp, is the same as 0.75 kW, so an engine rated at 134 hp is a 100- kW engine

Mechanical Energy is energy due to the position, or the movement of something Mechanical Energy  Potential  Potential energy is stored and held in readiness (a spring or stretched rubber band)  Examples: fossil fuels, electric batteries, and food  Gravitational potential energy= weight x height  PE=mgh  Kinetic  Kinetic energy is energy of motion  It depends on mass and speed of an object  Kinetic energy = ½ mass x speed2