Unit 3 Section 3 Notes Conservation of Energy. Energy Transformations Energy is most noticeable as it transforms from one type to another. What are some.

Slides:

Advertisements

Similar presentations

Conservation of Energy

Advertisements

Chapter 4: Energy.

Energy Unit Adapted from Motion, Forces, and Energy textbook Copyright 1997 Prentice-Hall Inc.

Chapter 5 ENERGY. What is the ability to do work? 1.Kinetic energy 2.Potential energy 3.Mechanical energy 4.Energy.

Energy Answer Key.

4 4 Chapter 4: Energy Unit 1: Energy and Motion Table of Contents 4.1: The Nature of Energy 4.2: Conservation of EnergyConservation of Energy 4 4.

ENERGY REVIEW. What is energy? The ability to do work or make change in matter.

Energy and Work  Conservation of Energy. You’re more likely to think of energy as race cars roar past or as your body uses energy from food to help it.

Nature of Energy EEEEnergy is all around you! YYYYou can hear energy as sound. YYYYou can see energy as light. AAAAnd you can feel it.

The Nature of Energy 4.1 What is Energy?

Chapter Energy.

Conservation of Energy.  How did you get to school today?  If you walked, did you get tired? Why do you think you got tired?  If you rode in a vehicle,

 You reading this screen  The lights  My computer  The wind outside  The sun  You breathing, moving, writing.

Conservation of Energy and Momentum. Conservation If you gave me a dollar and asked for change, how many dimes would you want back? How about quarters?

4 4 Chapter 4: Energy Unit 1: Energy and Motion Table of Contents 4.1: The Nature of Energy 4.2: Conservation of EnergyConservation of Energy 4 4.

Unit 2 Energy. Energy Transformations Law of Conservation of Energy Energy cannot be created or destroyed only transformed to another type of Energy.

Chapter 4 Energy. 4-1: The Nature of Energy When something is able to change its environment or itself, it has energy.

UNIT 2: Physics Chapter 5: Energy (pages ) I. The Nature of Energy A. What is energy? 1. Energy- defined as the ability to do work, or the ability.

Conservation of Energy IT’S THE LAW. Lifting a Ball When you lift a ball to a certain height you do work on it. When you lift a ball to a certain height.

Section 2: Conservation of Energy

Energy and Energy Resources Sections 1 and 2. What is Energy? The ability to do work Involves motion or position Work occurs when a force causes an object.

Conservation of Energy IT’S THE LAW. Lifting a Ball When you lift a ball to a certain height you __________________. This work (W) is equal to the weight.

Chapter 4 Energy

Energy Chap 4 Intro & Conservation. The Nature of Energy 4.1.

Conservation of Energy Chapter 4 Section 3. Law of Conservation of Energy Law of Conservation of Energy: states that energy cannot be created or destroyed.

Conservation of Energy. Changing Forms of Energy  Energy is most noticeable as it transforms from one type to another.  What are some examples of transforming.

Energy Physics 4 th Six Weeks. What is Energy? Energy is defined as the ability to produce a force. Energy is also defined as the ability to cause a change.

Chapter 4 Energy

Table of Contents Work and Energy Section 1 • Work and Machines

Conservation of Energy IT’S THE LAW. Lifting a Ball When you lift a ball to a certain height you do work on it. When you lift a ball to a certain height.

5.2 – Conservation of Energy Write what is in WHITE.

FORMS of ENERGY. Energy has different forms. A.The sun gives off energy in the form of heat and light.

Energy cannot be created or destroyed. Section 3: Conservation of Energy K What I Know W What I Want to Find Out L What I Learned.

Physics Chapter 11 Energy & Energy Conservation. Objectives 11.1 Energy and Its Forms Define Potential and Kinetic Energy Calculate Kinetic Energy of.

Ch 4 notes. Work Press down on your desk with your hand. Are you doing any work? work – force applied through a distance The transfer of energy when a.

1. 2 Work: done ONLY when a force is applied to an object, and the object moves IN THE SAME DIRECTION OF THE APPLIED FORCE Work is calculated by multiplying.

Conservation of Energy Chapter 13.4 Notes. Energy Transformations Energy readily changes from one form to another For example, think about when you ride.

Conservation of Energy. Changing Forms of Energy  Energy is most noticeable as it transforms from one type to another.  What are some examples of transforming.

Energy Conversions & Conservation. Bellringer  Where does the energy that makes a roller coaster car move come from? Where does the energy go?

Unit 5: Work, Power and Energy. Work Work is done when a force causes a change in motion of an object, or work is a force that is applied to an object.

Conservation of Energy Summary. KE and PE  In many situations, there is a conversion between potential and kinetic energy.  The total amount of potential.

May 2, A ball can experience 30 J of work if it falls off the counter. How massive is the ball if it is at a height of 2 m? 2.How much PE does the.

THE ABILITY TO CAUSE CHANGE

Transformation of Energy

Chapter 4 Section 2.

Section 3: Conservation of Energy

Section 3: Conservation of Energy

Energy and Work Conservation of Energy

Conservation of Energy

Warm-Up: How much power is required to lift a 50N box 3 m in 5 s?

Conservation of Energy

April 30, 2010 Bring up your lab from yesterday!

Chapter 4 Energy

Energy The ability to do work.

Conservation of Energy

P.S. 1: Chapter 5: Energy.

Conservation of Energy

Conservation of Energy

Energy and Work Conservation of Energy

Chapter 4 Energy.

Physical Science: Chapter 13 Section 4

Conservation of Energy

The Nature of Energy.

Conservation of Energy

Energy Chapter 4.

Chapter 4 Energy

Presentation transcript:

Unit 3 Section 3 Notes Conservation of Energy

Energy Transformations Energy is most noticeable as it transforms from one type to another. What are some examples of electrical energy transforming to heat energy? A light bulb A hair dryer

Energy Transformations An example of transforming chemical energy is a car engine. Chemical potential energy in gasoline is transformed into kinetic energy of the car as it moves.

Energy Transformations Imagine you are sitting in the front car of a roller coaster. A conveyor belt pulls the car slowly up the first hill. When you reach the crest of the hill, you are barely moving. Then, you go over the edge and start to race down the hill. You speed faster and faster until you reach the bottom of the hill.

Energy Transformations In the course of a roller coaster ride, energy changes forms many times. The conveyor belt is the most important part of the ride; the energy from that initial work is stored as gravitational potential energy at the top of the first hill. After that, most of the energy goes through a series of transformations turning into KE and then back to PE.

Energy Transformations In many situations, there is a conversion between kinetic and potential energy. The total amount of potential and kinetic energy in a system is called the mechanical energy. Mechanical energy = PE + KE Mechanical energy is due to the position and motion of the object.

Energy Transformations A small quantity of the stored energy is transferred to the wheels as heat and to the air as vibrations that make a roaring sound. Energy readily changes from one form to another. Whatever forms the energy takes during a transformation, the total amount of energy always remains the same.

Other Examples of PE to KE

Energy Transformations What happens to the mechanical energy of an apple as it falls from a tree?

Energy Transformations As the apple falls to the ground, its height decreases. Therefore, its GPE decreases. The potential energy is NOT lost… it is converted into kinetic energy as the velocity of the apple increases. What happens to the mechanical energy?

Energy Transformations The mechanical energy does not change because the loss in potential energy is simply transferred into kinetic energy. The energy in the system remains constant!!

Energy Transformations mck05_int_rollercoaster/?utm_source=t eachersdomain_redirect/asset/mck05_i nt_rollercoaster/utm_medium=teachers domain/asset/mck05_int_rollercoaster/u tm_campaign=td_redirectshttp:// mck05_int_rollercoaster/?utm_source=t eachersdomain_redirect/asset/mck05_i nt_rollercoaster/utm_medium=teachers domain/asset/mck05_int_rollercoaster/u tm_campaign=td_redirects

Energy Transformations Think about the changes in energy when you are on a swing… At what point do you have the most potential energy? At what point do you have the most kinetic energy? What happens to the mechanical energy?

Law of Conservation of Energy The Law of Conservation of Energy states that energy cannot be created or destroyed. The big picture… the total energy in the universe remains constant.

Law of Conservation of Energy But how? If I stop pumping while I’m swinging, I stop!! So, where’s the energy?

Law of Conservation of Energy You need to remember friction….. As you slow down on the swing, the hooks and the chain rub against each other and air pushes against the rider.

Law of Conservation of Energy Friction causes some of the mechanical energy of the swing to change to thermal energy and the temperature of the hooks and chain heat up a little. The energy is still there, just in a different form!!

Energy Transformations Objects lose mechanical energy that can be in the form of sound or heat. When energy appears to disappear, it has just changed to a nonmechanical form.

Conservation of Energy Energy is transformed… not destroyed!! So even though the total amount of energy remains constant, less energy is available for doing useful work.

Energy Transformations Energy transformations in a bouncing ball:

Energy in Our Bodies Even the energy converted in your body follows the law of conservation of energy. Chemical potential energy is transferred to kinetic energy that allows your body to move!!

Energy and Calories A Calorie (C) is a unit to measure energy in foods. 1 Calorie is equal to about 4,184 Joules. A person uses about: 55 Calories while sleeping for 1 hour 210 Calories while walking for 1 hour 850 Calories while running for 1 hour