Work.

Slides:

Advertisements

Similar presentations

Work = F X D. Work: Work is done when a force causes an object to move in the same direction that the force is applied.

Advertisements

Honors Physics. By his power God raised the Lord from the dead, and he will raise us also. 1 Corinthians 6:14.

P3d(i) Work and Power You will find out about What work is How to calculate work The energy needed to do work

13-Work and Energy 1-Work, Power, and Machines Work: The transfer of energy to an Object by the application of force that Causes the object to move in.

a) The kinetic energy of the car. b) The distance it takes to stop.

Chapter 13.1 – Work, Power, and Machines

Chapter 5 Work and Energy

Unit 5-1: Work and Power. Work When we were looking at force, we observed that an objects motion is related to how the force acts and how long it acts.

Work, Machines, and Energy HS Physical Science Hull Middle School.

Work. What is work? In science, the word work has a different meaning than you may be familiar with. The scientific definition of work is: using a force.

You will need: Pencil, paper, calculator. Energy Quiz

You are Stronger than you seem, Braver than you believe, and Smarter than you think you are. Use the gifts that you have been given.

Physical Science Chapter 13

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.

Ch 9 What is Work ? What is the equation for work?

Unit Two: Mechanical Energy A: Work- –in everyday life, it means many things –In physics, work is “what is accomplished when a force acts on an object.

Work and Power. Assignment I will number you into groups. You will be working in chapter 8 of the book. Your group number will represent your section.

The weight lifter applies a large force to hold the barbell over his head. Because the barbell is motionless, no work is done on the barbell.

Chapter 5: Work, Power, and Energy Chapter 5-1 (p ) Physics.

WORK AND SIMPLE MACHINES. WORK Work is said to be done when a force acting on a body moves the body a certain distance in the direction of the force when.

Work. Work – is a quantity that exist whenever a force acting upon an object causes a displacement. Displacement – a vector quantity, which refers to.

Energy and Work. Energy Energy is the ability to change or cause change. If something has no energy, there can be no change.

Energy, Work, and Transfer of Energy Physical Science Chapter 12.

Work.  Lifting books out of your backpack?  Carrying your backpack to class?  Pushing a car that is stuck in the snow?  Rolling a bowling ball? What.

Speed, Momentum, Acceleration, Work, Power, and Potential Energy Practice Problems TEK I6A – describe the law of conservation of energy; and TEK I4A.

Unit B 1.4 Work and Energy. Force Defined as a push or a pull on an object Measured in Newtons Force (N) = mass (kg) x acceleration (m/s 2 ) Kg*m/s 2.

Work, Power & Energy How do they relate? (Stone, Ebener, Watkins)

14.1 & Work The weight lifter applies a large force to hold the barbell over his head. Because the barbell is motionless, no work is done on the.

Calculating Work. Work = force x distance W=f x d Unit of Measurement for Work is Joules Unit of Measurement for Force is Newtons Unit of Measurement.

Energy What is it?. Here are some examples: Here are some examples:

Work & Energy Unit Part 1: Work, Power, & Machines.

Vocabulary Work Problems Potential Energy Problems Kinetic Energy Problems Extra Questions

Understanding and Calculating Work Work - When a force acts on an object and causes it to move through a distance, energy is transferred and work is done.

Work and Power. Work Let’s look at some examples of moving a book where “work” is being done and “work” is not being done on the book. Move the book from.

Unit 7: Work, Power, and Mechanical Energy.

Work, Power & Energy.

Work and Power.

Energy and Work.

Energy and Work.

Speed, Momentum, Acceleration, Work, Power, and Potential Energy Practice Problems TEK I6A – describe the law of conservation of energy; and TEK I4A.

Energy and Work.

Work, Power and Energy.

Chapter 13: Work and Energy Physical Science Coach Mynhier.

Work, Impulse, Momentum and Power

Because the barbell is motionless, no work is done on the barbell.

Essential Question: What are the different types of energy?

Part 1: Work, Power, & Machines

Work and Power.

Work Power and Machines

Work notes: In science, ‘work’ has a specific meaning

KINETIC ENERGY: ENERGY OF MOTION

Work, Power, and Mechanical Advantage Review

Work, Kinetic Energy, & Potential Energy

Work and Power notes: In science, ‘work’ has a specific meaning

Chapter 12 Work and Energy

(1) Work & Power Unit 4.

Today we will: Learn what “work” is! Learn how to calculate work

Calculating Work 4/9/2019 Calculating Work.

Chapter 7 Work.

Work and Power.

WORK AND POWER WHEN OBJECTS MOVE.

Work, Power, and Machines

STARTER Can you fill in the energy transfer review sheet on your desks? Work together as a group!

Work, Power and Machines

Work and Simple Machines

Presentation transcript:

Work

Objectives: Define work Calculate work done on an object and the rate at which work is done Use ‘work’ as a science term

Work and Power notes: In science, ‘work’ has a specific meaning Work is ONLY done when a force causes a change in the position or motion of an object in the direction of the applied force i.e. making something move because of force

Work or no work?

Work or no work? Lifting a barbell over your head?

Work or no work? Holding a barbell over your head?

Work or no work? Is there work being done ON the tray?

THINK! What’s the difference between doing work and not doing work (in a scientific sense)? How do you think you might need to know in order to calculate ‘work’? (Hint: what HAS to happen for work to be done?)

If to do work you must apply force that changes the position of an object, in the direction of an applied force… Think back: what is “The change of position in a direction”? Displacement

WORK EQUATION: W = FΔx Work = Force x displacement Work Equation W = work, F = force, Δx = displacement W = FΔx

Work is measured in joules (J). 1 J = 1 N•m = 1 kg•m2/s2 1 joule is roughly equal to the energy required to lift a small apple 1 meter *N measures force/weight *m measures mass... To find weight in N, need to use Fg=mg James Prescott Joule

THINK! At what point in this clip is work being done? Why?

Practice: A crane uses an average force of 5200 N to lift a crate 25 m. How much work does the crane do on the crate?

An apple weighing 1N falls a distance of 1m An apple weighing 1N falls a distance of 1m. How much work is done on the apple by the force of gravity?

Challenge! A mechanic uses a hydraulic lift to raise a 1200 kg car 0.5 m off the ground. How much work does the lift do on the car?

Exit Ticket #45-48

45. What is the equation to find work? W=N Δx W=FΔx W=N/Δx W=F/Δx

46. The brakes on a bicycle apply 125 N of frictional force to the wheels as the bicycle travels 14.0 m. How much work have the brakes done on the bicycle? a. 8.9 J b. 0.112 N c. 1750 J d. 1750 N

47. What is displacement? The distance an object travels The direction an object travels The change of position in a direction None of the above

48. Anna walks down the hall on her way to class 48. Anna walks down the hall on her way to class. She weighs 565 N and carries a backpack that weighs 63.2N. Calculate the work she does on the backpack if she walks 35.2 m to class. 19888 J 2224.64 J 1.80 J 0 J