Pre-Lecture Quiz: – MasteringAstronomy Ch15 pre-lecture quiz due February 17 Homework: – MasteringAstronomy.

Slides:

Advertisements

Similar presentations

Advertisements

GED Physical Science.

WAVES CARRY ENERGY! MECHANICAL WAVES

© 2010 Pearson Education, Inc. Chapter 5 Light and Matter: Reading Messages from the Cosmos.

Chapter 5 Light and Matter: Reading Messages from the Cosmos.

Light Solar System Astronomy Chapter 4. Light & Matter Light tells us about matter Almost all the information we receive from space is in the form of.

PHYS 206 Matter and Light At least 95% of the celestial information we receive is in the form of light. Therefore we need to know what light is and where.

Chapter 5 Light and Matter: Reading Messages from the Cosmos

Waves, Sound and Light. WHAT ARE WAVES? A wave is a disturbance that transfers energy (not matter) from place to place. People jump up and down, moving.

27 Light Light is the ONLY thing you see! All visible objects either emit or reflect light.

Pre-Lecture Quiz: – MasteringAstronomy Ch15 pre-lecture quiz due February 17 – MasteringAstronomy Ch16 pre-lecture.

The Energy of Waves Light and Sound. The Nature of Waves Wave: a periodic disturbance in a solid, liquid, or gas as energy is transmitted through a medium.

CHEMISTRY 161 Chapter 7 Quantum Theory and Electronic Structure of the Atom

ASTR100 (Spring 2008) Introduction to Astronomy Properties of Light and Matter Prof. D.C. Richardson Sections

Chapter 5 Basic properties of light and matter. What can we learn by observing light from distant objects? How do we collect light from distant objects?

The Nature of Light In Astronomy. Herschel’s Infrared experiment Invisible (to our eyes) light immediately beyond the color red is call infrared light.

© 2004 Pearson Education Inc., publishing as Addison-Wesley Announcements Reminder: First Mid-Term Exam will be Feb 19 (Mon) If it snows, it will be held.

© 2004 Pearson Education Inc., publishing as Addison-Wesley Orbital Energy and Escape Velocity orbital energy = kinetic energy + gravitational potential.

ELECTROMAGNETIC WAVES SECONDARY 3 PHYSICS. WHAT ARE EM WAVES? Electromagnetic waves (EM waves for short) are waves that can travel in a vacuum. These.

Chapter 17 & 18 Waves.

© 2010 Pearson Education, Inc. Light and Matter: Reading Messages from the Cosmos.

Energy in Waves. A Wave is… Any disturbance that transmits energy through matter or space. Energy in Waves.

Nuclear Atom and Unanswered Questions

© 2010 Pearson Education, Inc. Chapter 5 Light and Matter: Reading Messages from the Cosmos.

Properties of Matter Our goals for learning: What is the structure of matter? What are the phases of matter How is energy stored in atoms?

Guiding Questions 1. How fast does light travel? How can this speed be measured? 2. Why do we think light is a wave? What kind of wave is it? 3. How is.

Energy Energy is a property that enables something to do work

Electromagnetic Spectrum. The electromagnetic spectrum covers a wide range of wavelengths and photon energies.

A105 Stars and Galaxies  Homework 4 due Sept. 21  Telescopes  Read units 26, 27  News Quiz Tuesday Today’s APODAPOD ROOFTOP TONIGHT 8:30.

1 Chapter 6 WAVES Dr. Babar Ali. 2 CHAPTER OUTLINE  Wave Concept Wave Concept  Wave Properties Wave Properties  Wave Speed Wave Speed  Wave Types.

© 2004 Pearson Education Inc., publishing as Addison-Wesley 6. Light: The Cosmic Messenger.

Physical Science Chapter 16 Grade 5. Chapter 16- Energy and Waves.

Waves: An introduction

Exam #1 Approaching 1 st Exam will be in four days (Friday, Sept. 18) – Chapters closed book/notes exam 40 questions, multiple choice, no calculators.

© 2010 Pearson Education, Inc. Chapter 5 Light and Matter: Reading Messages from the Cosmos.

Copyright © 2008 Thomson Delmar Learning, a division of Thomson Learning, Inc. ALL RIGHTS RESERVED.  Chapter 2.

Homework 4 Unit 21 Problem 17, 18, 19 Unit 23 Problem 9, 10, 13, 15, 17, 18, 19, 20.

NATS From the Cosmos to Earth Nuclear Fission Neutron strikes nucleus - breaks it apart into two separate atoms - different elements - releases.

What is light? Light can act either like a wave or like a particle Particles of light are called photons.

CH. 4.  Energy that can travel through space from one point to another without any physical link  We can see stars explode, but why can’t we hear them?

ENERGY Two main types -- kinetic and potential. KINETIC ENERGY Energy of motion Increases as mass increases Increases as speed increases.

Chapter 5 Light: The Cosmic Messenger. 5.1Basic Properties of Light and Matter Light: electromagnetic waves 1. Velocity (c = speed of light), wavelength.

By: Joshua. Mass is a measure of how much matter is made of in a object. Volume is the amount of 3-D space used to describe the space that an object takes.

Waves A wave is a disturbance that transfers energy from one place to another Waves transfer energy without moving the matter Waves require energy and.

Chapter: Electromagnetic Radiation Table of Contents Section 1: What are electromagnetic waves? Section 2: The ElectromagneticThe Electromagnetic Spectrum.

Topic 5 Energy. Energy is the ability to do work or cause change Kinetic energy: energy of motion  faster objects have more kinetic energy Temperature.

DOR: Atomic Theory 9/4 1)Which scientist is credited with the Law of Conservation of Mass? 2)This scientist performed cathode ray experiments to determine.

Life always offers you a second chance. It’s called tomorrow.

Characteristics of Waves

I. What is a Wave?  A. A wave is a repeating disturbance or movement that transfers energy through matter or space. 1. The matter in which a wave travels.

Introduction to Physics and Astronomy (1) 2-1. Light and Black Body Radiation.

 Matter is any thing that occupies space & has mass  Present in three states: solid, liquid, & gas  It could be divided into elements & compounds 

Electromagnetic Spectrum. What is a wave? A disturbance involving the transfer of energy from place to place.

CHAPTER 20 THE ENERGY OF WAVES. Waves - _________________________________________________________ **As the wave travels away from its source, energy moves.

Light and Matter: Reading Messages from the Cosmos

Quantum Theory and the Electronic Structure of Atoms

Matter All matter is composed of atoms.

5.3 Properties of Matter Our goals for learning

What is light?.

Chapter 5 Light and Matter

5.3 Properties and Phases of Matter

The Nature of Electromagnetic Waves

An Electromagnetic Wave

Chapter 3 Review Worksheet

5.2 Properties of Light Our goals for learning What is light?

Presentation transcript:

Pre-Lecture Quiz: – MasteringAstronomy Ch15 pre-lecture quiz due February 17 Homework: – MasteringAstronomy Ch3 assignment due February 1 – MasteringAstronomy Ch4 assignment due February 8 – MasteringAstronomy Ch5 assignment due February 15 Midterm 1: [TTh] Feb 12 / [MW] Feb 13 – Covers chapters 1, 3, 4, 5, and Appendix C. – Bring a calculator. I will not have extras. Cell phones are not allowed. – Test will be scantron, so bring a pencil. I will not have extras. – Have Lecture-Tutorials workbook ready to turn in before test.

Light and Matter How do we experience light? – Light is a form of energy. – Light comes in many colors that combine to form white light. How do light and matter interact? – Matter can emit light, absorb light, transmit light, and reflect (or scatter) light. – Interactions between light and matter determine the appearance of everything we see.

Reflection and Scattering Mirror reflects light in a particular direction. Movie screen scatters light in all directions.

Interactions of Light With Matter Interactions between light and matter determine the appearance of everything around us.

Why is a rose red? A.The rose absorbs red light. B.The rose transmits red light. C.The rose emits red light. D.The rose reflects red light.

Why is a rose red? A.The rose absorbs red light. B.The rose transmits red light. C.The rose emits red light. D.The rose reflects red light.

Light and the Electromagnetic Spectrum What is light? – Light can behave like either a wave or a particle. – A light wave is a vibration of electric and magnetic fields. – Light waves have a wavelength and a frequency. – Photons are particles of light. What is the electromagnetic spectrum? – Human eyes cannot see most forms of light. – The entire range of wavelengths of light is known as the electromagnetic spectrum.

Waves A wave is a pattern of motion that can carry energy without carrying matter along with it. Longitudinal: particle displacement is parallel to the direction of wave propagation. Sound waves are an example of longitudinal waves. Transverse: Particle displacement is perpendicular to the direction of wave propagation. Waves passing down ropes or slinkies are examples of transverse waves.

Wave Properties Wavelength is the distance between two wave peaks. Frequency is the number of times per second that a wave vibrates up and down. Wave speed = wavelength x frequency

Light: Electromagnetic Waves A light wave is a vibration of electric and magnetic fields. Light interacts with charged particles through these electric and magnetic fields. Particles of light are called photons. Each photon has a wavelength and a frequency. The energy of a photon depends on its frequency. wavelength  frequency = speed of light = constant

Wavelength, Frequency, and Energy λ  f = c λ = wavelength, f = frequency c = 3.00  10 8 m/s = speed of light E = h  f = photon energy h =  joule  s = Planck’s Constant

Visible Light Waves /textbook/05_VisibleLightWaves.htm

The higher the photon energy… A.the longer its wavelength. B.the shorter its wavelength. C.energy is independent of wavelength.

The higher the photon energy… A.the longer its wavelength. B.the shorter its wavelength. C.energy is independent of wavelength.

Lecture-Tutorial: “Electromagnetic (EM) Spectrum of Light” (page 45)

The Structure of Matter Matter is made of atoms, which consist of a nucleus of protons and neutrons surrounded by a cloud of electrons.

Atomic Terminology Atomic number = # of protons in nucleus Atomic mass number = # of protons + neutrons

Atomic Terminology Isotope: same # of protons but different # of neutrons (4He, 3He)

Phases of Matter Familiar phases: – Solid (ice) – Liquid (water) – Gas (water vapor) – (And a couple others…) Phases of same material behave differently because of differences in chemical bonds. Adding heat to a substance changes its phase by breaking chemical bonds. As temperature rises, a substance transforms from a solid to a liquid to a gas, then the molecules can dissociate into atoms. Stripping of electrons from atoms (ionization) turns the substance into a plasma.

Phase Changes Ionization: stripping of electrons, changing atoms into plasma Dissociation: breaking of molecules into atoms Evaporation: breaking of flexible chemical bonds, changing liquid into solid Melting: breaking of rigid chemical bonds, changing solid into liquid

Phases and Pressure Phase of a substance depends on both temperature and pressure. Often more than one phase is present.

Energy is stored in atoms The energies of electrons in atoms correspond to particular energy levels. Electrons in atoms are restricted to particular energy levels. Atoms gain and lose energy only in amounts corresponding to particular changes in energy levels.

Energy Level Transitions The only allowed changes in energy are those corresponding to a transition between energy levels. Not Allowed Allowed