Ch. 11.1 Types of Waves Wave.

Slides:

Advertisements

Similar presentations

WavesSection 1 What Is a Wave? What does a wave carry?

Advertisements

Waves.

Bell Ringer Where is the laptop charging station? How many passes do you get to leave the room per nine weeks? What was one of your learning styles?

Objectives Chapter 14 Recognize that waves transfer energy.

Types of Waves Mrs. B-Z. 1. Define Wave A wave is a disturbance that carries energy though matter or space.

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

PS Waves. Objectives To recognize the relationship between waves and energy To distinguish between mechanical waves and electromechanical waves,

Categorizing Waves: OR

Waves All notes provided by Alyse Consiglio of LaBrae Middle School.

What is a Wave? Sound and Light are forms of energy that travel in waves A wave is a repeating disturbance or movement that transfers energy through matter.

The Nature of Waves Learning Goals: Recognize that waves transfer energy, but not matter. Define mechanical waves. Compare and contrast transverse and.

What is a Wave? Chapter 12 Section 3 Glencoe Pages

WAVE Basics Chapters 15.

Waves Introduction Chapter 10 Section 1 and 2 Physics Standard 4.

What Is a Wave? What does a wave carry?

6/3/2016 Ch Types of Waves 1. Wave Types 2.

Types of Waves and Their Properties. Transverse Waves Particles vibrate at right angles to the direction the wave is traveling Transverse Waves Particles.

Essential Question: How does data collected provide evidence that the amount of energy a wave carries determines the properties of a wave?

Types of Waves and Their Properties. Transverse Waves Particles vibrate at right angles to the direction the wave is traveling Transverse Waves Particles.

Waves: An introduction

What is a Wave? Chapter 10 Section 1 Glencoe Pages

PHYSICAL SCIENCE Waves Part 1: Types of Waves. Section 1 Types of Waves Objectives  Recognize that waves transfer energy.  Distinguish between mechanical.

Section 1: The Nature of Waves

The Energy of Waves Chapter 20

Energy  an object is said to have “energy” if the object has the ability to change its environment Two ways to transfer energy  1. through the application.

Waves Mr. Ford. Types of Waves Wave a disturbance that transmits energy through matter or space Medium the matter which a wave travels through Mechanical.

Unit 4 Section 2 Notes Types of Waves.

Energy Transfer - Waves. Waves A wave is any disturbance that transmits energy through matter or empty space. Energy can be carried away from it’s source.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu To View the presentation as a slideshow with effects select “View”

Good Vibrations 1. Use three different words / phrases to describe the motion of the pendulum.

TEKS 5G: Explore the characteristics and behaviors of energy transferred by waves, including acoustic, seismic, light, and waves on water as they superpose.

Nature of Waves Image Source: Microsoft Office clipart.

1/14/Day 1 Introduction to Waves Homework ◦Missing Work  MP end Next Fri.

Electromagnetic and Mechanical Waves. S8P4. Students will explore the wave nature of sound and electromagnetic radiation. What does it mean? Students.

Waves Jack Brandes.  Waves are a disturbance in matter as the energy moves through the air, water, etc. The very top of the wave is the crest, while.

1 Waves Physical Science Chapter Waves Rhythmic disturbances that carry energy through matter or space.

Oscillatory Motion Physics 7(A). Learning Objectives Examine and describe oscillatory motion Examine and describe wave propagation in various types of.

The Nature of Waves. Terms to Learn Wave: is any disturbance that transmits energy through matter or space. Medium: is a substance through which a wave.

 Recognize that waves transfer energy  Distinguish between mechanical waves and electromagnetic waves  Explain the relationship between particle vibration.

Oct 30  Projects due tomorrow!  QOD- How are frequency and wavelength related?  Today: 17.1 – 17.2 notes.

Unit 5 Lesson 1 Waves Copyright © Houghton Mifflin Harcourt Publishing Company 1.

WavesSection 1 Section 1: Types of Waves Preview Key Ideas Bellringer What Is a Wave? Vibrations and Waves Transverse and Longitudinal Waves Surface Waves.

Preview Key Ideas Bellringer What Is a Wave? Vibrations and Waves Transverse and Longitudinal Waves Surface Waves SECTION 1: TYPES OF WAVES.

WavesSection 1 What Is a Wave? 〉 What does a wave carry? 〉 A wave is a disturbance that carries energy through matter or space.

14.1 Types of Waves I CAN: -I CAN RECOGNIZE THAT WAVES MAY BE ABSORBED BY OBJECTS AND BE TRANSFORMED INTO ANOTHER ENERGY.

What are waves? Wave Definition: A disturbance that transfers energy from place to place. What carries waves… it depends on the wave type.

Light and Geometric Optics Unit Physics 11

Waves: Sound and Light IPC Unit 6.

Section 1: Types of Waves

P. Sci. Unit 5 Waves Chapter 17.

The Nature of Waves.

The Nature of Waves.

What is a wave? SC.7.P.10.3 Recognize that light waves, sound waves, and other waves move at different speeds in different material Unit 5 lesson 1.

WHAT IS A WAVE? disturbance that transports energy through matter or space.

Section 3-1 The Nature of Waves.

Section 1: Types of Waves

The Nature of Waves Unit 12 Section 1.

Types of Waves.

Unit 4 Lesson 1 Waves.

1.) What forms mechanical waves?

Properties of Waves Chapter 11: Section 3.

Physical Science Chapter 15 Waves Section 1.

In a wave pool, the waves carry energy across the pool

Unit 4 Lesson 1 Waves.

Learning Target 4.1 – Understand that waves carry energy (not matter) from place to place. Unit 4 - Waves.

Quiz 4 Review energy matter (medium) Electromagnetic water air sound

Chapter 20 Section 1 The Nature of Waves Bellringer

Wave Energy and Types of Waves

Presentation transcript:

Ch. 11.1 Types of Waves Wave

Section 11.1 Objectives Recognize that waves transfer energy. Distinguish between mechanical waves and electromagnetic waves. Explain the relationship between particle vibration and wave motion. Distinguish between transverse waves and longitudinal waves.

What is a wave? A wave is a disturbance that transmits energy through matter or space. A wave is not made of matter. Most waves travel through a medium. Figure 11-1 A stone thrown into a pond creates waves.

Mechanical Waves Examples of Mediums: Water Air Earth Mechanical Waves are waves that require a medium. Medium is the matter through which a wave travels. Almost all waves are mechanical waves with the exception of electromagnetic waves (light).

Electromagnetic Waves Electromagnetic waves are waves caused by a disturbance in electric and magnetic fields and that do not require a medium; also called a light wave. Visible light is only one part of the electro-magnetic spectrum

Energy of a Wave Energy may spread out in spheres that increase in size as a wave travels outward. Waves transfer energy. The bigger the wave, the more energy it carries. We know waves carry energy because they can do work. Ex: water waves carry a leaf or beat in water; sound waves can do work on your eardrum.

Vibrations and Waves Vibrations involve transformations of energy. As the pendulum is pulled away from its resting position, it gains gravitational potential energy. As it swings the opposite direction, the potential energy is transformed to kinetic energy.

Wave Motion Vs. Particle Vibration Waves are related to vibrations. Most waves are caused by a vibrating object. EM waves may be caused by vibrating charged particles.

Transverse and Longitudinal Waves Transverse waves are waves that cause the particles of a medium to vibrate perpendicularly to the direction the wave travels. Ex: Light Waves Longitudinal waves are waves that cause the particles of the medium to vibrate parallel to the direction the wave travels. Ex: Sound Waves

Surface Waves In a surface wave, particles move in circles. Ocean waves are surface waves at the boundary between the air and water.

Section 11.1 Summary A wave is a disturbance that carries energy through a medium or through space. Mechanical waves require a medium through which to travel. Light waves, also called electromagnetic waves, do not require a medium. Particles in a medium may vibrate perpendicularly to or parallel to the direction a wave is traveling.