Chapter 16 4 Superposition 4 and 4 Standing Waves.

Slides:

Advertisements

Similar presentations

Chapter 9 Light as a Wave.

Advertisements

Sound.

Beats and Resonance Sections 9.3 and 9.4.

Chapter 21 Superposition and standing waves

Chapter 14 Waves and sound Dr. Haykel Abdelhamid Elabidi November/December 2013/Muh 1435.

Principle of Superposition Interference Stationary Waves

Dr. Jie ZouPHY Chapter 18 Superposition and Standing Waves.

Halliday/Resnick/Walker Fundamentals of Physics 8th edition

Waves on a string THIS LECTURE Standing waves Standing waves Dispersive and non-dispersive waves Dispersive and non-dispersive waves.

Continuous String Take limit of h→0 and m/h→ r Wave Equation.

Fig Photograph of interference fringes produced on a screen in Young’s double slit experiment.

PHYS 218 sec Review Chap. 15 Mechanical Waves.

TOC 1 Physics 222 Interference Light (and all electromagnetic phenomena) is made up of waves.

Chapter 37 Wave Optics. Wave optics is a study concerned with phenomena that cannot be adequately explained by geometric (ray) optics.  Sometimes called.

The Principle of Linear Superposition and Interference Phenomena

SCPY152 General Physics II June 19, 2015 Udom Robkob, Physics-MUSC

By Bhaskar Department of Physics K L University. Lecture 2 (28 July) Interference.

Harmonics Physics Chapter 13-3 Pages A. Standing waves on a vibrating string Fundamental frequency – lowest frequency of vibration of a standing.

Chapter 15 Outline Mechanical Waves

The Principle of Linear Superposition and Interference Phenomena CHAPTER 17 Interference Constructive and Destructive Interference: BEATS Standing Waves:

Stringed Instruments (Ex. Guitars, pianos, violins)  Vibrating the string sets up a standing wave, the vibration from the string resonate the sounding.

Ch 17. Principle of Linear Superposition and Interference Phenomena When the pulses merge, the Slinky assumes a shape that is the sum of the shapes of.

Chapter 17 The Principle of Linear Superposition and Interference Phenomena.

Chapter 14 Notes Vibrations and Waves. Section 14.1 Objectives Use Hooke’s law to calculate the force exerted by a spring. Calculate potential energy.

Chapter 14 Sound. Sound waves Sound – longitudinal waves in a substance (air, water, metal, etc.) with frequencies detectable by human ears (between ~

Waves – Chapter 10.2 – 10.5 Transverse vs longitudinal Frequency f, wavelength, period T, wave speed – v = f Harmonic waves: y(x) = Asin(kx); with k =

Superposition of waves Standing waves on a string Interference Lecture 27: Wave interference.

© 2012 Pearson Education, Inc. { Chapter 35 Interference (not given– computer problems)

Copyright © 2009 Pearson Education, Inc. Lecture 1 – Waves & Sound b) Wave Motion & Properties.

STANDING WAVES. Standing Waves - appear to be ‘standing’ still in their left to right motion - in constant position.

Ch17. The Principle of Linear Superposition and Interference Phenomena

Chapter 8.2 Notes Wave Interactions Wave Interactions.

14-6 The Doppler Effect The Doppler effect is the change in pitch of a sound when the source and observer are moving with respect to each other. When an.

Lecture Nine: Interference of Light Waves: I

Chapter 17. The Principle of Linear Superposition and Interference Phenomena CHAPTER 17 Interference Constructive and Destructive Interference: BEATS.

Harmonics. Each instrument has a mixture of harmonics at varying intensities Principle of superposition Periodics- Repeating patterns of waveforms.

Chapters 16, 17 Waves.

16 Superposition and Standing Waves Superposition of Waves Standing Waves Additional: Superposition of Standing Waves, Harmonic Analysis & Synthesis Hk:

Wave Interference Superposition Principle – when two or more waves encounter each other while traveling through a medium, the resultant wave is found by.

Chapter 37: Interference of Light (Electromagnetic) Waves

H. SAIBI November 25, Outline Generalities Superposition of waves Superposition of the wave equation Interference of harmonic waves.

Superposition of Waves

For a standing wave to be set up in a string there has to be two waves travelling in it. Explain what has to be the same and what has to be different about.

Superposition & Standing waves

Interference. Interference filter Newton’s ring.

Chapter 15: Wave Motion 15-2 Types of Waves: Transverse and Longitudinal 15-3 Energy Transported by Waves 15-4 Mathematical Representation of a Traveling.

University Physics: Waves and Electricity

University Physics: Waves and Electricity

Chapter 15 Mechanical Waves.

Interference Of Waves.

(Road to discuss harmony)

Principle of Superposition Interference Stationary Waves

MECHANICAL WAVES AND SOUND

Chapter 18: Superposition and Standing Waves

Some Excellent Video Lessons

The Principle of Linear Superposition and Interference Phenomena

Standing Waves Waves and Sound

Young’s Double Slit Experiment.

Superposition of Waves

Introduction to physics

Young’s Double Slit Experiment.

WAVES John Parkinson St. Brendan’s Sixth Form College John Parkinson

Principle of Linear Superposition and Interference Phenomena

14-7 Superposition and Interference

Interference and Diffraction

Interference Of Waves.

PHY138 – Waves, Lecture 4 Today’s overview

Section2 :Wave Properties Wave: disturbance that carries energy

Presentation transcript:

Chapter 16 4 Superposition 4 and 4 Standing Waves

Section 16-1: Superposition of Waves When two or more waves combine, the resultant wave at any point, is the algebraic sum of the individual waves.

Superposition and the Wave Equation y 3 = c 1 y 1 + c 2 y 2 superposition

Interference of Harmonic Waves

Constructive interference

Destructive Interference

Beats

Phase difference due to a path difference Waves are in phase if the phase difference, δ= n(2π) This results in constructive interference

The waves are exactly out of phase when δ= (n+½)2π This results in destructive interference

Example 16-2 p 485

Intensity versus path difference for two sources that are in phase.

Two sources that are in phase, or have a constant phase difference are said to be coherent. The Double Slit Experiment: doubleslit

Section 16-2: Standing Waves String fixed at both ends The standing wave condition is when L = n(½λ) and f n = nν/2L =nf 1

A classic Steinway piano

String fixed at one end.

Wave functions for standing waves String fixed at both ends wavesuperposition

String fixed at one end

Standing sound waves on the surface of the sun

Some of the many modes of oscillation of a ringing handbell