Energy, Work, and Power

Unit 5

Energy Flow

  • Where does energy come from?
  • Are there different kinds of energy, or are they all the same?
  • What is power?
  • Can I measure how much energy I use?
  • What is energy?

Work and power

  • What is work?
  • How can we tell how much work a person has done?
  • What is power?

Energy:

the ability to move objects

"the ability to do work"

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the capacity to do work

Energy

what it is

How to find it

All movement of any object is caused by energy. Energy comes in different forms from electrical, and thermal to gravitational and kinetic.

E=KE+PE
E=KE+PE

WHen you add up all the kinetic energy (KE) and the potential energy (PE) of  system, you get the total energy (E)

We will use Joules to measure energy.

 (the unit for energy is Joules (J))

law of conservation of energy:

Energy never disappears or suddenly appears...

energy can neither be created nor destroyed

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Only two kinds of energy

  1.  Potential Energy (PE)

  2. Kinetic Energy (KE) 

potential energy

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1. Potential Energy

stored energy

  • Potential Energy can be stored as gravitational force

  • An object that could fall down has lots of Potential Energy...

Stored energy

2. potential Energy

what it is

Energy can be stored in lots of forms. A match ready to burn, a spring ready to be sprung, or a doll ready to fall from the shelf.

imagine

...getting hit on the head by a falling coconut...

other kinds of POTENTIAL enrgy

  • Elastic Potential Energy- energy stored in something that is squished or stretched

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Gravitational

potential

energy

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what it is

GPE is the amount of energy stored in an object that can be pulled down by gravity.

If something is higher up, or if it has more mass, it is storing more GPE

how to find it

 

m-mass (kg)

g-acceleration from gravity (9.8)

h-height of object (m)

Gravitational Potential Energy (GPE)

GPE=mgh
GPE=mgh

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Kinetic

energy

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Energy of an object in motion

2. Kinetic Energy

what it is

How to find it

When objects are in motion, they have kinetic energy. Objects with more mass, and objects with greater velocity have more kinetic energy when moving.

KE=1/2mv^2
KE=1/2mv2

m=mass (kg)

v=velocity (m/s)

imagine...

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work

Using Energy to move an object IN THE SAME DIRECTION AS THE FORCE

Work

what it is

How to find it

When a force is applied to an object, and that force causes the object to move in the same direction, work is being done.

It is a measure of how far a force has moved an object.

If an object moves in a direction opposite the force, there is no work!

W=Fd
W=Fd

F=Force

m=mass

a=acceleration

d=distance moved

F=ma
F=ma

power

practice

makes

perfect

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Try to answer before looking back at the slides...

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Energy, Work, and Power

By Luke Gliddon

Energy, Work, and Power

Unit 5. Contains notes for all the learning targets

  • 1,101