2.13 & 2.14 Energy Conservation & Energy Conservation Math

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Slide 1: Slide
Kinetic and Potential Energy6th Grade

This lesson contains 33 slides, with interactive quizzes, text slides and 2 videos.

time-iconLesson duration is: 45 min

Items in this lesson

Slide 1 - Slide

Slide 2 - Slide

Today's Objective
We will explain mechanical energy conservation and use the formulas to determine conservation of energy.

Slide 3 - Slide

Slide 4 - Slide

Slide 5 - Link

Where is the kinetic energy of the pendulum the greatest?
A
At the top
B
At the bottom
C
Halfway in between the top and bottom
D
It remains constant

Slide 6 - Quiz

Slide 7 - Video

When is the skateboarder's kinetic energy the greatest?
A
At the top of the half-pipe.
B
At the bottom of the half-pipe.
C
Halfway in between the top and bottom of the half-pipe.
D
The kinetic energy remains constant.

Slide 8 - Quiz

Where is the kinetic energy of the pendulum the greatest?
A
At the top
B
At the bottom
C
Halfway in between the top and bottom
D
It remains constant

Slide 9 - Quiz

When is the skateboarder's potential energy the greatest?
A
15 J
B
5 J
C
22.5 J
D
7.5 J

Slide 10 - Quiz

An object has a mass of 2.0 kg and a speed of 5 m/s. What is the kinetic energy of the object?
A
10 J
B
5 J
C
25 J
D
98 J

Slide 11 - Quiz

An object is at a height of 7 m. It has a mass of 4.0 kg. Calculate the gravitational potential energy.
A
28 J
B
56 J
C
274 J
D
500 J

Slide 12 - Quiz

Slide 13 - Slide

Slide 14 - Video

Slide 15 - Slide

Slide 16 - Slide

Slide 17 - Slide

What causes the
loss of energy?

Slide 18 - Mind map

Discussion Question
Imagine a boy on a slide. As the boy slides down, his PE is turning into KE. But he is also feeling the effects of friction slowing him down. Friction is a force, and it is acting for a distance. Is mechanical energy 
conserved?
timer
2:00

Slide 19 - Slide

Discussion Question
When skydiving, what causes the energy to decrease allowing the skydiver to decrease his/her velocity prior to hitting the ground?
timer
2:00

Slide 20 - Slide

When is mechanical energy conserved?
When is mechanical energy actually conserved?
timer
1:00

Slide 21 - Slide

Using Energy Equations
You can use the energy equations to answer these types of questions.

Slide 22 - Slide

How to solve for final kinetic energy.
  1. Plug in the information into the formula.
  2. Solve with what you have. (multiply the left side, then multiply the right)
  3. Divide through to get v2 by itself. 
  4. Find the square root to determine the final ke.

Slide 23 - Slide

An object has a kinetic energy of 25 J and a mass of 34 kg , how fast is the object moving?
Steps to Solve :
1. Plug in the information into the formula.
2. Solve with what you have. (multiply the left side, then multiply the right)
3. Divide through to get v2 by itself. 
4. Find the square root to determine the final ke.

Slide 24 - Slide


A bowling ball with a mass of 2 kg falls from the top of a building 10 meters off the ground. How fast will it be traveling just before it hits the ground?

Slide 25 - Open question

An object has a kinetic energy of 25 J and a mass of 34 kg , how fast is the object moving?

Slide 26 - Open question

Linear and Positive
Linear and Negative

Slide 27 - Slide

Non Linear Postive
Non Linear Negative

Slide 28 - Slide

Describe the relationship between kinetic energy and speed according to the chart.
A
linear and positive
B
linear and negative
C
non linear and positive
D
non linear and negative

Slide 29 - Quiz

Describe the relationship between kinetic energy and speed according to the chart.
A
linear and positive
B
linear and negative
C
non linear and positive
D
non linear and negative

Slide 30 - Quiz

Describe the relationship between kinetic energy and speed according to the chart.
A
linear and positive
B
linear and negative
C
non linear and positive
D
non linear and negative

Slide 31 - Quiz

Describe the relationship between kinetic energy and speed according to the chart.
A
linear and positive
B
linear and negative
C
non linear and positive
D
non linear and negative

Slide 32 - Quiz

Exit Ticket Quiz
Take the 2.10 KE and PE math Practice

Slide 33 - Slide