AZ State Standards. Concept 3: Conservation of Energy and Increase in Disorder Understand ways that energy is conserved, stored, and transferred.

Similar documents
In science, energy is the ability to do work. Work is done when a force causes an

Unit 2 Lesson 1 Introduction to Energy. Copyright Houghton Mifflin Harcourt Publishing Company

Preview of Period 2: Forms of Energy

Introduction to Forms of Energy

Science Tutorial TEK 6.9C: Energy Forms & Conversions

What is Energy? What is the relationship between energy and work?

Radiant Energy Definition

Energy and Energy Transformations Test Review

Chapter 2: Forms of Energy

Chapter 4 Forms of energy

Chapter 2: Forms of Energy

Indiana's Academic Standards 2010 ICP Indiana's Academic Standards 2016 ICP. map) that describe the relationship acceleration, velocity and distance.

ENERGY AND ENERGY TRANSFORMATIONS. The scientific definition of energy is the ability to do work. The four most common forms of energy are:

Energy Test Study Guide

PHYSICAL WORLD. Heat & Energy GOD S DESIGN. 4th Edition Debbie & Richard Lawrence

Semester 2. Final Exam Review

Energy Transformations

Science Standard 3 Energy and Its Effects Grade Level Expectations

Current Staff Course Unit/ Length. Basic Outline/ Structure. Unit Objectives/ Big Ideas. Properties of Waves A simple wave has a PH: Sound and Light

Section 15.1 Energy and Its Forms (pages )

Textbook pp

Energy comes in many flavors!

Forms of Energy. Freshman Seminar

Name: Class: Date: 10. Some substances, when exposed to visible light, absorb more energy as heat than other substances absorb.

WindWise Education. 2 nd. T ransforming the Energy of Wind into Powerful Minds. editi. A Curriculum for Grades 6 12


Multiple Choice Identify the choice that best completes the statement or answers the question.

TEACHER BACKGROUND INFORMATION THERMAL ENERGY

MAKING SENSE OF ENERGY Electromagnetic Waves

From lowest energy to highest energy, which of the following correctly orders the different categories of electromagnetic radiation?

Potential and Kinetic Energy

What Is Energy? Energy and Work: Working Together. 124 Chapter 5 Energy and Energy Resources

CHAPTER 2 Energy and Earth

Science Standard Articulated by Grade Level Strand 5: Physical Science

Module 2.2. Heat transfer mechanisms

Basic Forms of Energy:

Focused Learning Lesson Physical Science Grade Levels 9 12 PS-H-G4

SIZE. Energy. Non-Mechanical Energy. Mechanical Energy. Part II. Examples of Non-Mechanical Energy. Examples of Mechanical Energy.

STEM 2 3: The Basics of Energy, Electricity, and Water Jigsaw

MCQ - ENERGY and CLIMATE

Forms of Energy Explain

ch 15 practice test Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Review 1. Multiple Choice Identify the choice that best completes the statement or answers the question.

MS. Structure and Properties of Matter

Energy. Mechanical Energy

Energy Types. Exercise 1: Find The 10 Basic Types of Energy

Grade Level Expectations for the Sunshine State Standards

CRT Science Review #1 Physical Science: Matter

Chapter 18: The Structure of the Atom

WHERE DID ALL THE ELEMENTS COME FROM??

Kinetic Theory. Energy. Transfers and Efficiency. The National Grid

Nuclear Physics. Nuclear Physics comprises the study of:

Physical Science Study Guide Unit 7 Wave properties and behaviors, electromagnetic spectrum, Doppler Effect

After a wave passes through a medium, how does the position of that medium compare to its original position?

Preview of Period 5: Thermal Energy, the Microscopic Picture

Name Class Date. You do twice as much work. b. You lift two identical books one meter above the ground.

A n = 2 to n = 1. B n = 3 to n = 1. C n = 4 to n = 2. D n = 5 to n = 2

PS-6.2 Explain the factors that determine potential and kinetic energy and the transformation of one to the other.

Work and Energy. Work = Force Distance. Work increases the energy of an object. Energy can be converted back to work.

5. The Nature of Light. Does Light Travel Infinitely Fast? EMR Travels At Finite Speed. EMR: Electric & Magnetic Waves

Chapter 18 Temperature, Heat, and the First Law of Thermodynamics. Problems: 8, 11, 13, 17, 21, 27, 29, 37, 39, 41, 47, 51, 57

INSPIRE GK12 Lesson Plan. The Chemistry of Climate Change Length of Lesson

Student Reader. Energy Systems UNIT 7. E5 Student Reader v. 8.0 Unit 7 Page KnowAtom TM

Preview of Period 3: Electromagnetic Waves Radiant Energy II

California Standards Grades 9 12 Boardworks 2009 Science Contents Standards Mapping

Electricity. Electricity: The Mysterious Force. 32 Intermediate Energy Infobook CARBON ATOM SEVERAL COMMON ELEMENTS

Bounce! Name. Be very careful with the balls. Do not throw them DROP the balls as instructed in the procedure.

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING PHYSICS. Friday, June 20, :15 to 4:15 p.m.

The Sun and Solar Energy

Practice Test. 4) The planet Earth loses heat mainly by A) conduction. B) convection. C) radiation. D) all of these Answer: C

Study Guide CCA week 12 - Key

Structure and Properties of Atoms

The content is based on the National Science Teachers Association (NSTA) standards and is aligned with state standards.

CPI Links Content Guide & Five Items Resource

The rate of change of velocity with respect to time. The average rate of change of distance/displacement with respect to time.

Waves Sound and Light

1. The Kinetic Theory of Matter states that all matter is composed of atoms and molecules that are in a constant state of constant random motion

SOLAR ENERGY FUNDAMENTALS

Principle of Thermal Imaging

Lecture 30 - Chapter 6 Thermal & Energy Systems (Examples) 1

XX. Introductory Physics, High School

v = fλ PROGRESSIVE WAVES 1 Candidates should be able to :

Activity 9: Solar-Electric System PUZZLE

Physics PH1FP. (Jun15PH1FP01) General Certificate of Secondary Education Foundation Tier June Unit Physics P1. Unit Physics P1 TOTAL

Objectives 404 CHAPTER 9 RADIATION

Basics of Nuclear Physics and Fission

2. Room temperature: C. Kelvin. 2. Room temperature:

Practice final for Basic Physics spring 2005 answers on the last page Name: Date:

Name Date Class ELECTRONS IN ATOMS. Standard Curriculum Core content Extension topics

PLEASE DO NOT WRITE ON THE TEST. PLACE ALL MULTIPLE CHOICE ANSWERS ON THE SCANTRON. (THANK YOU FOR SAVING A TREE.)

1. At which temperature would a source radiate the least amount of electromagnetic energy? 1) 273 K 3) 32 K 2) 212 K 4) 5 K

AERO SCIENCE K-8 and High School STANDARDS with Progression/Performance Indicators DOCUMENT VERSION

Determination of Molecular Structure by MOLECULAR SPECTROSCOPY

ESCI 107/109 The Atmosphere Lesson 2 Solar and Terrestrial Radiation

CHEMISTRY STANDARDS BASED RUBRIC ATOMIC STRUCTURE AND BONDING

XX. Introductory Physics, High School

INFRARED SPECTROSCOPY (IR)

Chemical Building Blocks: Chapter 3: Elements and Periodic Table

Energy Pathways in Earth s Atmosphere

Introduction to Nuclear Physics

Transcription:

Forms of Energy

AZ State Standards Concept 3: Conservation of Energy and Increase in Disorder Understand ways that energy is conserved, stored, and transferred. PO 1. Describe the following ways in which energy is stored in a system: Mechanical, electrical, chemical, nuclear PO 2. Describe various ways in which energy is transferred from one system to another (e.g., mechanical contact, thermal conduction, electromagnetic radiation.)

Content Objectives SWBAT differentiate between the different forms of energy by listing them and explaining how energy is stored or transmitted.

Energy is Measured in Joules It takes 4.18 Joules to heat 1 gram of water by 1 C. Power is the measurement of energy per second. It is measured in watts. 1 watt = 1 joule per second

Three Ways Energy Can Be Transferred

Conduction Direct transfer as molecules strike each other

Convection Movement of hot molecules by differential densities. Only occurs in fluids (liquids and gases).

Radiation Energy released as electromagnetic radiation based on its temperature

Kinetic vs Potential Energy What s the difference? Ask your partner Kinetic energy is the energy of motion based on its speed and mass. Potential energy is the stored energy available if it is allowed to begin motion.

Kinetic Energy Radiant Energy: electromagnetic energy that travels in transverse waves.

Forms of Electromagnetic Radiation Radiowaves Microwaves Infrared Visible Light Ultraviolet X-rays Gamma rays (very long wavelength (λ), low energy) (long λ, low-medium energy) (medium λ, medium energy) (medium-small λ, medium energy) (small λ, medium-high energy) (small λ, high energy) (very small λ, very high energy)

Black Box Radiation All matter in the universe releases energy. The type of energy is based on its temperature. Cold things only release low energy radiation like radiowaves. Hot things release infrared or even go to visible light if hot enough.

Infrared Imaging Warmer things release more infrared radiation than cooler objects.

Kinetic Energy Thermal Energy, or heat, is the internal energy in substances - the vibration and movement of the atoms and molecules within substances. Geothermal energy is an example.

Kinetic Energy Electrical Energy is the movement of electrical charges. Applying a force or energy source to an atom can make some of the electrons move. Electrical charges moving through a wire is called electricity. Lightning is another example of electrical energy.

Kinetic Energy Motion Energy is the movement of objects and substances from one place to another. Objects and substances move when a force is applied according to Newton s Laws of Motion. Wind is an example of motion energy.

Kinetic Energy Sound is the movement of energy through substances in longitudinal (compression/rarefaction) waves. Sound is produced when a force causes an object or substance to vibrate the energy is transferred through the substance in a wave.

Potential Energy Stored Mechanical Energy is energy stored in objects by the application of a force. Compressed springs and stretched rubber bands are examples of stored mechanical energy.

Potential Energy Chemical Energy is energy stored in the bonds of atoms and molecules. It is the energy that holds these particles together. Biomass, petroleum, natural gas, and propane are examples of stored chemical energy.

Potential Energy Nuclear Energy is energy stored in the nucleus of an atom the energy that holds the nucleus together. The energy can be released when the nuclei are combined or split apart. Nuclear power plants split the nuclei of uranium atoms in a process called fission. The sun combines the nuclei of hydrogen atoms in a process called fusion.

Potential Energy Gravitational Energy is the energy of position or place. A rock resting at the top of a hill contains gravitational potential energy. Hydropower, such as water in a reservoir behind a dam, is an of example gravitational potential energy.

Potential Energy Magnetism is the attraction of atoms of opposite polarity. Two magnets will attract each other or repel each other and this energy can be stored by securing them slights apart from each other.

Kinetic energy is motion of waves, electrons, atoms, molecules, substances, and objects. Radiant Energy is electromagnetic energy that travels in transverse waves. Radiant energy includes visible light, x- rays, gamma rays and radio waves. Light is one type of radiant energy. Solar energy is an example of radiant energy. Thermal Energy, or heat, is the internal energy in substances the vibration and movement of the atoms and molecules within substances. Geothermal energy is an example of thermal energy. Electrical Energy is the movement of electrical charges. Applying a force or energy source to an atom can make some of the electrons move. Electrical charges moving through a wire is called electricity. Lightning is another example of electrical energy. Motion Energy is the movement of objects and substances from one place to another. Objects and substances move when a force is applied according to Newton s Laws of Motion. Wind is an example of motion energy. Sound is the movement of energy through substances in longitudinal (compression/rarefaction) waves. Sound is produced when a force causes an object or substance to vibrate the energy is transferred through the substance in a wave. Potential energy is stored energy and the energy of position gravitational energy. There are several forms of potential energy. Chemical Energy is energy stored in the bonds of atoms and molecules. It is the energy that holds these particles together. Biomass, petroleum, natural gas, and propane are examples of stored chemical energy. Stored Mechanical Energy is energy stored in objects by the application of a force. Compressed springs and stretched rubber bands are examples of stored mechanical energy. Nuclear Energy is energy stored in the nucleus of an atom the energy that holds the nucleus together. The energy can be released when the nuclei are combined or split apart. Nuclear power plants split the nuclei of uranium atoms in a process called fission. The sun combines the nuclei of hydrogen atoms in a process called fusion. Gravitational Energy is the energy of position or place. A rock resting at the top of a hill contains gravitational potential energy. Hydropower, such as water in a reservoir behind a dam, is an of example gravitational potential energy. Magnetism is the attraction of atoms of opposite polarity. Two magnets will attract each other or repel each other and this energy can be stored by securing them slights apart from each other.

Content Objectives SWBAT differentiate between the different forms of energy by listing them and explaining how energy is stored or transmitted.

2024 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information