CHAPTER 12- WAVES. WHAT IS A WAVE? Mechanical waves vs non-mechanical waves?

Slides:

Advertisements

Similar presentations

Mechanical Waves and Sound

Advertisements

Wave Properties Refraction, diffraction and superposition.

Waves – Topic 4 Chapters 13, 14, 25, 26. Traveling Waves  Wave Motion: Disturbance which travels in a medium transferring energy and momentum. –No Transfer.

Fisica Generale - Alan Giambattista, Betty McCarty Richardson Copyright © 2008 – The McGraw-Hill Companies s.r.l. 1 Chapter 11: Waves Energy Transport.

Ripple Tank Summary.

Ch. 14 Waves and Energy Transfer Milbank High School.

Properties of Waves. The Ripple Tank To study waves, we will use a ripple tank. A ripple tank works by having a wave generating probe produce a continuous.

Objectives Identify how waves transfer energy without transferring matter. Contrast transverse and longitudinal waves. Relate wave speed, wavelength, and.

11.7 Properties of Waves – see also lecture notes 11.7

Chapter 17: Mechanical Waves and Sound

Waves and Energy Transfer Chapter 15 pages

O Level Physics Chapter :11: Properties of Waves

Waves Energy can be transported by transfer of matter. For example by a thrown object. Energy can also be transported by wave motion without the transfer.

Wave interactions.

WAVES Definition: A traveling disturbance that carries energy through matter and space Waves transfer energy without transferring matter. Waves are produced.

Lecture 12 Light: Reflection and Refraction Chapter 22.1  22.4 Outline History of Studies of Light Reflection of Light The Law of Refraction. Index of.

4.4.1 Wave pulse: a wave pulse is a short wave with no repeated oscillations Progressive wave: a wave that moves through a medium transferring energy as.

Waves PSC1341 Chapter 4. Waves A wave is a repeating disturbance or movement that transfers energy through matter or space Waves can be mechanical and.

Waves Topic 4.5 Wave Properties. Wave Behaviour v Reflection in one dimension.

Vocabulary you’ll need … Read in the textbook Chapter 25- Vibrations and Waves.

Wave Characteristics. Terms to Review Parts of a Wave – Crest – Trough – Pulse – Amplitude – Wavelength – Frequency – Period Types of Waves – Mechanical.

Waves Topic 4.5 Wave Properties. Wave Behavior  Reflection in one dimension.

Transverse or longitudinal waves transport energy from one point to another. Each particle in the medium vibrates or oscillates, and disturbs the neighbouring.

CHAPTER 12- WAVES. WHAT IS A WAVE? Mechanical waves vs non-mechanical waves?

This is one type of wave…. wave Wave a disturbance that propagates through a material medium or space. Waves transfer energy without the bulk transport.

Reflection at an Angle Normal Ray of light, or “ray” of sound at an angle to reflector Virtual Ray Incident angle reflected angle mirror Think about this.

The incoming wave travels at 5ms -1 and has a wavelength of 4m. The wave changes its speed once it moves onto a shallower region and as the result its.

Spring Constant, K The constant k is called the spring constant. SI unit of k = N/m.

Waves and Sound Wave Characteristics.

Surface Waves. Surface Wave A wave that has characteristics of both transverse and longitudinal waves (Ocean Waves). Surface Wave Applet.

 The behavior of a wave is greatly influenced by the medium in which it is traveling.  The wave frequency remains unchanged in different medium.  The.

Chapter 14 Waves & Energy Transfer I. Waves Properties 1. A wave is a rhythmic disturbance that carries energy 1. A wave is a rhythmic disturbance that.

Chapter 14 ”Vibrations and Waves"

Chapter 8 Test Review Parts of a transverse wave – Equilibrium Point AmplitudeCrest TroughWavelength – How does the medium move with respect to wave propagation?

Waves GCSE Physics. Objectives of the Lesson Understand the concept of wave motion in the physical world Recall that there are two types of wave motion-

How Light Behaves at a Boundary

Wave a disturbance that propagates through a material medium or space. Waves transfer energy without the bulk transport of matter. In order for a mechanical.

Waves Part II: Behavior. The Wave Machine Standing Waves Standing waves are a result of interference.

Waves. Waves 3 Types of Waves Mechanical Waves: Wave motion that requires a medium (ie. water, sound, slinkies, …) Electromagnetic Waves: No medium is.

Waves What do you know?. Types of waves Mechanical – need a medium or material to travel through ex. Water, slinky Mechanical – need a medium or material.

Do now! Can you continue/finish the sheet we started at the end of last lesson on POLARISATION?

Waves What do you know?. Types of waves Mechanical – need a medium or material to travel through ex. Water, slinky Mechanical – need a medium or material.

Refraction. Have you ever seen this? Refraction of Light When light travels through a surface between two different media, the light will be refracted.

Wave a disturbance that propagates through a material medium or space. Waves transfer energy without the bulk transport of matter. In order for a mechanical.

Holt Physics Chapter 12 Waves Periodic Motion A repeated motion that is back and forth over the same path.

CHAPTER 12- WAVES. WHAT IS A WAVE? Mechanical waves vs non-mechanical waves?

Wave Definition: A disturbance that transfers energy from place to place. A medium, a medium is the material through which a wave travels. A medium can.

UNIVERSITY OF GUYANA FACULTY OF NATURAL SCIENCES DEPART. OF MATH, PHYS & STATS PHY 110 – PHYSICS FOR ENGINEERS LECTURE 6 (THURSDAY, OCTOBER 6, 2011) 1.

Waves Wave Interactions Transverse waves Longitudinal waves $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400.

Chapter 6 Wave Motion.

4.5-Wave Properties.

Waves & Energy Transfer

Light Waves in 2D SPH4U.

Properties of Waves.

Notes 3: The Behavior of Waves

Wave a disturbance that propagates through a material medium or space.

WAVE PROPERTIES waves transmit energy There are two types of waves

Wave a disturbance that propagates through a material medium or space.

Wave a disturbance that propagates through a material medium or space.

Wave a disturbance that propagates through a material medium or space.

Oscillations and Waves

a disturbance that travels through a material medium.

Class Starter: Waves What are some examples of waves in nature?

Waves Chapter 11.

14.2 Wave Properties.

Lets review what we have learned…..

Transfers Energy Without Transferring Matter

Presentation transcript:

CHAPTER 12- WAVES

WHAT IS A WAVE? Mechanical waves vs non-mechanical waves?

LONGITUDINAL VS TRANSVERSE

KEY TERMS DISPLACEMENT AMPLITUDE WAVELENGTH PERIOD FREQUENCY PHASE DIFFERENCE

PHASE AND PHASE DIFFERENCE This is a measure of how “in step” the different waves (or particles) are.

CALCULATING PHASE DIFFERENCE

PHASE DIFFERENCE If the particles are moving together we say they are “in phase” If the particles are “out of phase” by a half cycle they are π radians out of phase. A phase difference of π/2 radians shows they are out of phase by ¼ of a cycle

WAVE EQUATION Derivation of the wave equation

WAVE PROPERTIES- PART 1 Reflection Refraction Diffraction

REFLECTION The law of reflection from a plane mirror (any flat surface)? What is TIR? When does it occur?

DIFFRACTION When waves pass through apertures or around obstacles they tend to spread out. This spreading out is called DIFFRACTION.

MAXIMUM DIFFRACTION Maximum diffraction will occur when the gap or obstacle size is close to the wavelength of the wave. php

REFRACTION Definition ?? What would happen if… Waves in a ripple tank move from shallow to deeper water? Light travels from air into glass

HOMEWORK! Discuss the implications of reflection and diffraction on satellite dish design. Explain one use of TIR in technology

SNELL’S LAW

SNELL’S LAW - DEFINITION It is the ratio of the velocity of the wave in the two media Or the ratio of the sine of the angle of incidence to the sine of refraction REMEMBER – because it is a ratio, this means the refractive index is a DIMENSIONLESS QUANTITY

SUPERPOSITION AND INTERFERENCE Wiki Sim – Huygens’ Principle of SuperpositionHuygens’ Principle of Superposition

HUYGENS PRINCIPLE OF SUPERPOSITION The displacement of any point due to the superposition of wave systems is equal to the sum of the displacements of the individual waves at that point