Presentation is loading. Please wait.

Presentation is loading. Please wait.

HONORS.

Published byTore Aronsen Modified over 5 years ago

Similar presentations

Presentation on theme: "HONORS."— Presentation transcript:

1 HONORS

2 Law of Conservation of Energy
Law of Conservation of Energy: energy can never be created or destroyed, it can only change forms. Because of this, it is important to understand all of the different forms energy can take. See if they can remember the ones we’ve learned so far! Kinetic (energy in motion) Potential (stored energy; can be Elastic, Chemical, or Gravitational) As I go through the next few slides I like to see if the students can guess the forms of energy from the picture.

3 Forms of Energy Radiant: light that comes from the sun and lightbulbs; used to see and as a power source. Also referred to as: solar energy or light energy. Thermal: heat that comes from fire, sun, etc.; used to heat objects

4 Forms of Energy Electrical: comes from outlets and power plants; used to power electrical devices. Sound: comes from a variety of sources; used most often for communication Nuclear: comes from releasing energy from the nucleus of an atom; used in nuclear power plants.

5 Forms of Energy Electromagnetic: form of energy that is reflected or emitted in the form of electrical and magnetic waves that can travel through space. Examples: Cell phone, radio, satellite, etc.

6 Chemical  light/thermal/sound
Energy Transfers What are some examples of energy transfers/conversions? Chemical  light/thermal/sound Solar  Electrical Electrical Light

7 Electrical  electromagnetic
Energy Transfers What are some examples of energy transfers/conversions? Photosynthesis Electrical  electromagnetic (and light and sound) Solar  Chemical Kinetic  Sound

8 We can use this idea to do some calculations.
Energy Transfers Mechanical energy: the total amount of kinetic and potential energy in a system. In a falling object, GPE converts to KE as the object falls. Mechanical energy remains constant in this system, due to the Law of Conservation of Energy We can use this idea to do some calculations.

9 Example #1 Thomas is playing baseball with Matt. Thomas hits the 0.14 kg baseball and it moves with a velocity of 50 m/s. Assuming all energy is conserved, what is the height the ball could reach if hit straight upwards? What can we find with mass and velocity? Start by finding KE of the ball. If all energy is conserved, that means no energy is “lost”, so KE will eventually equal GPE at the peak of the ball’s height. What does this mean we can do? Substitute KE for GPE. Then we can rearrange and solve for height. I like to talk through this with students to see if they can process through it on their own before I lead them through solving it. It may even help to have them talk you through drawing a picture of this on the board.

10 Example #1 h = 127.6 m h = ? m = 0.14 kg v = 50 m/s a = 9.8 m/s2
Thomas is playing baseball with Matt. Thomas hits the 0.14 kg baseball and it moves with a velocity of 50 m/s. Assuming all energy is conserved, what is the height the ball could reach if hit straight upwards? h = ? m = 0.14 kg v = 50 m/s a = 9.8 m/s2 KE = ½ (.14)(50)2 KE = (.07)(2,500) KE = 175 J Therefore… GPE = 175 J (since all energy is conserved) GPE = ham h = 175 (9.8)(.14) 1.372 h = m am am h = GPE am KE = ½ mv2

11

Download ppt "HONORS."

Similar presentations

Energy.

Energy.
Energy. What is Energy? Energy is the ability to cause change Any time you move, or move something you are using energy.

Energy. What is Energy? Energy is the ability to cause change Any time you move, or move something you are using energy.
Energy.

Energy.
What is Energy? Forms of Energy

What is Energy? Forms of Energy
The Nature of Energy An unbalanced force must be applied to an object to change its motion. Work is the force over a distance. Energy is the ability to.

The Nature of Energy An unbalanced force must be applied to an object to change its motion. Work is the force over a distance. Energy is the ability to.
Forms and Transformations

Forms and Transformations
Energy Every observable change requires energy.

Energy Every observable change requires energy.
Jeopardy Q 1 Q 2 Q 3 Q 4 Q 5 Q 6Q 16Q 11Q 21 Q 7Q 12Q 17Q 22 Q 8 Q 13 Q 18 Q 23 Q 9 Q 14 Q 19Q 24 Q 10 Q 15 Q 20Q 25 Final Jeopardy Conservation Energy.

Jeopardy Q 1 Q 2 Q 3 Q 4 Q 5 Q 6Q 16Q 11Q 21 Q 7Q 12Q 17Q 22 Q 8 Q 13 Q 18 Q 23 Q 9 Q 14 Q 19Q 24 Q 10 Q 15 Q 20Q 25 Final Jeopardy Conservation Energy.
Energy.

Energy.
Section 2: Conservation of Energy

Section 2: Conservation of Energy
Potential & Kinetic Energy. Energy The ability to do work The ability to cause matter to move The ability to cause matter to change Measured in joules.

Potential & Kinetic Energy. Energy The ability to do work The ability to cause matter to move The ability to cause matter to change Measured in joules.
Notes 15-1 “Energy and It’s Forms”. * K.E. is the energy associated with motion. I. Kinetic Energy A. K.E. is a state of energy not a form of energy.

Notes 15-1 “Energy and It’s Forms”. * K.E. is the energy associated with motion. I. Kinetic Energy A. K.E. is a state of energy not a form of energy.
Energy! We have both types of energy: Kinetic and Potential.

Energy! We have both types of energy: Kinetic and Potential.
Kinetic and Potential Energy have many forms. 1. Mechanical Energy - Energy associated with motion or position.

Kinetic and Potential Energy have many forms. 1. Mechanical Energy - Energy associated with motion or position.
Energy Forms and Transformations. Forms of Energy.

Energy Forms and Transformations. Forms of Energy.
Energy. Energy: Forms and Changes Nature of Energy Energy is all around you! –Y–You can hear energy as sound. –Y–You can see energy as light. –A–And.

Energy. Energy: Forms and Changes Nature of Energy Energy is all around you! –Y–You can hear energy as sound. –Y–You can see energy as light. –A–And.
Matter and Energy Section 3.1: Energy exists in different forms

Matter and Energy Section 3.1: Energy exists in different forms
Energy Chapter 4.

Energy Chapter 4.
Energy. Nature of Energy Energy is all around you. You hear energy as sound, you see energy as light, you can feel energy in wind. Living organisms need.

Energy. Nature of Energy Energy is all around you. You hear energy as sound, you see energy as light, you can feel energy in wind. Living organisms need.
Energy IPC Physical Science, Mr. Hayhurst, Lancaster High School.

Energy IPC Physical Science, Mr. Hayhurst, Lancaster High School.

Similar presentations

Ads by Google