By: David Martinez & Luke Humphrey. When something is conserved, it means that it remains constant. No amount is lost over time. Even if it changes form,

Slides:

Advertisements

Similar presentations

Advertisements

Systems and energy pg. 27 in NB. Objectives Define a physical system. Calculate the mechanical energy of a physical system. Demonstrate and apply the.

Physics Conservation of Energy Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund Department.

Energy Conservation 1.

Oct. 1, 2001 Dr. Larry Dennis, FSU Department of Physics1 Physics 2053C – Fall 2001 Chapter 6 Conservation of Energy Work & Energy.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Work and Energy Chapter 5 Table of Contents Section 1 Work Section.

A system can be defined such that there are no external forces acting on the system. In this situation the system is called an isolated system, since it.

Chapter 5 Work and Energy

Conservation of Energy. What Is Energy? Energy makes change possible. Science definition: Energy is the ability to do work Measured in Joules, J. Just.

CONSERVATION OF MECHANICAL ENERGY

Elastic Potential Energy: More Practice. Conservation of Mechanical Energy: Learning Goal The student will investigate a simple energy transformation,

Conservation of Mechanical Energy Chapter 6. Energy  As you know, energy comes in many forms. Kinetic Energy Potential Energy  Gravitational Potential.

Herriman High Honors Physics Chapter 5 Work, Power and Energy What You Need to Know.

Objectives Recognize the difference between the scientific and ordinary definitions of work. Define work by relating it to force and displacement. Identify.

Chapter 5 Work and Energy. Force, displacement  WORK.

When we say something is conserved, we mean it remains constant.

Kinetic and Potential Energy

CONSERVATION OF MECHANICAL ENERGY Kinetic Energy and Potential Energy.

November 16 th 2009 Objectives SWBAT Relate the concepts of energy, power, and time SWBAT Calculate power in two different ways Catalyst Can the KE of.

Preview Objectives Definition of Work Chapter 5 Section 1 Work.

Work and Energy. Work a force that causes a displacement of an object does work on the object W = Fdnewtons times meters (N·m) or joules (J)

1 PPMF102– Lecture 3 Linear Momentum. 2 Linear momentum (p) Linear momentum = mass x velocity Linear momentum = mass x velocity p = mv p = mv SI unit:

Sect. 7.7: Conservative & Non- Conservative Forces.

Sect. 6-5: Conservative Forces. Conservative Force  The work done by that force depends only on initial & final conditions & not on path taken between.

Energy and Energy Conservation. Energy Two types of Energy: 1. Kinetic Energy (KE) - energy of an object due to its motion 2. Potential Energy (PE) -

© Houghton Mifflin Harcourt Publishing Company Preview Objectives Definition of Work Chapter 5 Section 1 Work.

Systems and energy. Equations For any closed system that undergoes a change, the total energy before the change is the same as the total energy after.

5.3 The Conservation of Mechanical Energy THE PRINCIPLE OF CONSERVATION OF ENERGY The term conserved means constant.

The Law of Conservation of Energy

Work, Energy, and Energy Conservation Chapter 5, Sections Pg

Lecture 11: Potential Energy & Energy Conservation.

Conservation of Energy System Energy of Gravitational Interaction -- Gravitational Potential Energy If the system contains Earth and an object (or objects),

Work has a specific definition in physics

Conservation of Energy. Equations For any closed system that undergoes a change, the total energy before the change is the same as the total energy after.

Objectives: The students will be able to: Solve problems using the law of conservation of energy. Solve problems using the law of conservation of energy.

5-3: Conservation of Energy Objectives: Identify situations in which conservation of mechanical energy is valid Recognize the forms that conserved energy.

Energy and Work Energy and Its Conservation Chapters 10 & 11.

© Houghton Mifflin Harcourt Publishing Company Preview Objectives Definition of Work Chapter 5 Section 1 Work.

Mechanical Energy What is it? What makes it change?

Conservation of Energy

ENERGY Objectives: After completing this module, you should be able to: Define kinetic energy and potential energy, along with the appropriate units.

Work and Energy. Section Objectives: Define work by relating it to force and displacement. Identify where work is being performed in a variety of situations.

Systems and energy pg. 43. Objectives Define a physical system. Calculate the mechanical energy of a physical system. Demonstrate and apply the law of.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Section 1 Work Chapter 5 Definition of Work Work is done on an object.

Section 5–3: Conservation of Energy Physics Coach Kelsoe Pages 173 – 178.

More Fun Energy Examples 1. Santa Claus is at the top of a chimney 8.5 m from the floor below. He slips and falls all the way down (ouch!). With what speed.

Warm up – Do old way A boy pulls a large box with a mass of 50 kg up a frictionless incline (

The Physics Energy. Objectives Identify several forms of energy. Calculate kinetic energy for an object. Apply the work–kinetic energy theorem to solve.

Conservation of Energy Aim: How does energy transfer from one form to another?

Conservation of Mechanical Energy: Learning Goal

Chapter 5 Section 1 Work Objectives

Chapter 5 Section 1 Work Preview Objectives Definition of Work.

Chapter 5 Section 1 Work Preview Objectives Definition of Work.

Conservation of Mechanical Energy

Section 3 Conservation of Energy

Conservation of Energy

from rest down a plane inclined at an angle q with the horizontal.

Chapter 5 Work and Energy

3.2.3 Conservation of Energy

Aim: How do we explain conservation of energy in systems under the influence of non-conservative forces?

Review of Work and Power

Conservation of Energy

Chapter 5 Definition of Work

Chapter 5 Table of Contents Section 1 Work Section 2 Energy

Sect. 7.7: Conservative & Non-Conservative Forces

Objectives Define work in terms of energy.

Warm-Up *Turn in Potential Energy Practice

Chapter 8 Rotational Equilibrium and Dynamics

Presentation transcript:

By: David Martinez & Luke Humphrey

When something is conserved, it means that it remains constant. No amount is lost over time. Even if it changes form, the value stays the same. Example: A person could have 4 quarters and exchange it for a dollar, the form may change but the value of the money stays the same. Conserved Quantities

Mechanical Energy

Starting from rest, a child zooms down a frictionless slide rom an initial height of 3.00 m. What is her speed at he bottom of the slide? Assume she has a mass o 25.o kg. Calculating Mechanical Energy