Presentation is loading. Please wait.

Presentation is loading. Please wait.

Work and Energy.

Published byPatience Griffith Modified over 8 years ago

Similar presentations

Presentation on theme: "Work and Energy."— Presentation transcript:

1 Work and Energy

2 Vocabulary Work: The use of force to move an object over a distance (Joule or J) Joule: The unit used to measure work; one joule of work is done when a force of one newton moves an object one meter (Joule = Newton ● meter) Power: the rate at which work is done (Watts) Watt: the unit used to measure power; one watt is equal to one joule of work done in one second Horsepower: the unit of measurement for engines and motors; one horsepower equals 745 watts.

3 WORK Force is necessary to do work!
Work is done only when an object that is being pushed or pulled actually moves. The work done by a force is related to the size of the force and the distance over which the force is applied. Work= (Force) ● (distance) W= Fd Units: Work (Joules), Force (Newtons), Distance (Meters)

4 Calculating Work (W=Fd)
How much work is done if a person lifts a barbell weighing 500 N to a height of 2 meters? I F S M U

5 Calculating Work I: Force= 500 N, distance= 2 m, Work=?
F: Work= Force●distance (W=Fd) S: W= 500 N ● 2 m M: 1,000 U: 1,000 J (remember the units for work are joules, units for force are Newtons, and units for distance are meters)

6 Work Objects that are moving can do work Examples:
Bowling balls do work on the pins they hit in a bowling alley Baseball bat does work on the ball Gravity does work on falling water

7 Energy is transferred when work is done
Energy is the ability to do work or cause change When you do work on an object, some of your energy is transferred to the object. Think of work as a transfer of energy Work and energy are both measured in the same unit, the joule

8 Calculating Gravitational Potential Energy
Potential energy (stored energy) that is caused by gravity (downward force) is gravitational potential energy. (GPE) Gravitational potential energy= mass ● gravitational acceleration ● height (GPE = mgh)

9 Calculating Gravitational Potential Energy (GPE=mgh)
What is the gravitational potential energy of a girl who has a mass of 40 kg and is standing on the edge of a diving board that is 5 meters above the water? * remember gravitational acceleration is a constant (does not change) so… g= 9.8 m/s2 I F S M U

10 Calculating Gravitational Potential Energy
I: mass= 40 kg, g= 9.8 m/s2 , height =5 m, GPE=? F: GPE = mgh S: GPE= 40 kg ● 9.8 m/s2 ● 5 m M: (kg ● m/s2 ) ● m U: 1960 Joules Remember the unit (Joules = N ● m)

11 Calculating Kinetic Energy KE= mv2 2
Kinetic energy is the energy of motion Kinetic energy= mass ● velocity2 2

12 Calculating Kinetic Energy KE= mv2 2
What is the kinetic energy of a girl who has a mass of 40 kg and a velocity of 3 m/s I F S M U

13 Calculating Kinetic Energy KE= mv2 2
I: mass= 40 kg, velocity = 3 m/s , KE=? F: KE= mv S: KE= (40kg ● (3m/s )2 2 ■ M: (40kg ● 9 m2/s2 ) 360 180 ( kg ● m2/s2 ) (kg ● m/s2 ) ● m N ● m 180 N ● m ■U: J (Remember N ● m = J)

14 Calculating Mechanical Energy ( ME= PE + KE)
Mechanical energy is the object’s combined potential and kinetic energy Mechanical energy= potential energy + kinetic energy ME = PE + KE

15 Calculating Mechanical Energy ( ME= PE + KE)
The potential energy of a girl on a swing just before she is released is 180 J and her kinetic energy after she has been released is 300 J. What is her mechanical energy (total energy) ? I F S M U

16 Calculating Mechanical Energy ( ME= PE + KE)
I: PE= 180 J, KE= 300 J, ME=? F: ME= PE + KE S: ME= 180 J J M: 480 U: 480 J

17 Law of conservation of energy
Energy can not be created or destroyed it is just transferred or transformed No matter how much energy is transferred all of the energy is still present somewhere in one form or another Mechanical energy is the combination of both kinetic and potential energy.

18 Power Power is the rate at which work is done
The unit of measurement for power is watt (W) Power = Work Time P= W/t

19 Calculating Power from work ( P= W/t)
An Antarctic explorer uses 6000 J of work to pull his sled for 60 Seconds. What power does he need? I F S M U

20 Calculating Power from work ( P= W/t)
I: Work= 6000 J, time= 60 s , P=? F: P= W/t S: P= 6000J/ 60 s M: P=100 J/s ( J/s =Watts) U: P=100 W

21 Power can be calculated from energy (P=E/t)
Power = Energy/time A light bulb used 600 J of energy in 6 s. What is the power of the light bulb? I F S M U

22 Power can be calculated from energy (P=E/t)
I: Energy= 600 J, Time= 6 s, P=? F: P=E/t S: P= 600 J/6 s M: P= 100 J/s U: P= 100 Watts

Download ppt "Work and Energy."

Similar presentations

Energy Chapter 4.

Energy Chapter 4.
Energy.

Energy.
Chapter 5 Work and Energy

Chapter 5 Work and Energy
Mechanical Energy By: Alicia Strickler Sarah Swartz.

Mechanical Energy By: Alicia Strickler Sarah Swartz.
Work, Energy, and Power Chapter 4. Work WORK = the use of force to move an object a certain distance. You do work ONLY when you exert a force on an object.

Work, Energy, and Power Chapter 4. Work WORK = the use of force to move an object a certain distance. You do work ONLY when you exert a force on an object.
Work and Power. We have learned about: We have learned about: Acceleration Acceleration Newton Newton Force Force Speed Speed Velocity Velocity Vectors.

Work and Power. We have learned about: We have learned about: Acceleration Acceleration Newton Newton Force Force Speed Speed Velocity Velocity Vectors.
WORK.

WORK.
Introduction to Work Monday, September 14, 2015 Work Work tells us how much a force or combination of forces changes the energy of a system. Work is.

Introduction to Work Monday, September 14, 2015 Work Work tells us how much a force or combination of forces changes the energy of a system. Work is.
ENERGY Part I.

ENERGY Part I.
Chapter 5 – Work and Energy If an object is moved by a force and the force and displacement are in the same direction, then work equals the product of.

Chapter 5 – Work and Energy If an object is moved by a force and the force and displacement are in the same direction, then work equals the product of.
Chapter 8 Work and Energy. Definition Work is the way that energy is transferred between objects. The amount of work done equals the amount of energy.

Chapter 8 Work and Energy. Definition Work is the way that energy is transferred between objects. The amount of work done equals the amount of energy.
When we say something is conserved, we mean it remains constant.

When we say something is conserved, we mean it remains constant.
Physics Chapter 11 Energy.

Physics Chapter 11 Energy.
ENERGY The measure of the ability to do work Conservation of energy -energy can change forms but can not be destroyed -the total amount of energy in the.

ENERGY The measure of the ability to do work Conservation of energy -energy can change forms but can not be destroyed -the total amount of energy in the.
IGCSE Coordinate Science 1 P3: Energy, Work, and Power Unit 7 – part 1.

IGCSE Coordinate Science 1 P3: Energy, Work, and Power Unit 7 – part 1.
Mechanical Energy Ch. 4. Energy Is the ability to do work. Energy = work Units = Joules (J) James Prescott Joule.

Mechanical Energy Ch. 4. Energy Is the ability to do work. Energy = work Units = Joules (J) James Prescott Joule.
Physics 3.3. Work WWWWork is defined as Force in the direction of motion x the distance moved. WWWWork is also defined as the change in total.

Physics 3.3. Work WWWWork is defined as Force in the direction of motion x the distance moved. WWWWork is also defined as the change in total.
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)

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)
Motion and Forces Work and Energy Chapter 4. Bell Work 2/18/10 Write each statement, then decide if the statement is true or false, if false correct it.

Motion and Forces Work and Energy Chapter 4. Bell Work 2/18/10 Write each statement, then decide if the statement is true or false, if false correct it.
Motion and Forces Work and Energy Chapter 4. Bell Work 2/18/10 Write each statement, then decide if the statement is true or false, if false correct it.

Motion and Forces Work and Energy Chapter 4. Bell Work 2/18/10 Write each statement, then decide if the statement is true or false, if false correct it.

Similar presentations

Ads by Google