Superposition & Standing waves

Slides:

Advertisements

Similar presentations

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Advertisements

Chapter 11 Waves. Waves l A wave is a disturbance/oscillation generated from its source and travels over long distances. l A wave transports energy but.

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.

ISAT 241 ANALYTICAL METHODS III Fall 2004 D. J. Lawrence

Wave Properties Chapter 14.

Summary Sinusoidal wave on a string Wavefunction.

11: Wave Phenomena 11.1 Standing (Stationary) Waves.

Principle of Superposition Interference Stationary Waves

Dr. Jie ZouPHY Chapter 18 Superposition and Standing Waves.

Halliday/Resnick/Walker Fundamentals of Physics 8th edition

Phy 212: General Physics II Chapter 16: Waves I Lecture Notes.

Chapter 18 Superposition and Standing Waves. Waves vs. Particles Waves are very different from particles. Particles have zero size.Waves have a characteristic.

PHYS 218 sec Review Chap. 15 Mechanical Waves.

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

WAVES AND WAVE PHENOMENA Physics 12 Source: Giancoli Chapter 11.

Sound Waves Sound waves are divided into three categories that cover different frequency ranges Audible waves lie within the range of sensitivity of the.

FCI. Faculty of Computers and Information Fayoum University 2014/ FCI.

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.

 Universal Wave Equation. A harp string supports a wave with a wavelength of 2.3m and a frequency of Hz. Calculate its wave speed.

Chapter 11:Vibrartions and Waves

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

Wave Mechanics Physics 1. What is a wave? A wave is: an energy-transferring disturbance moves through a material medium or a vacuum.

Wave Motion. Conceptual Example: Wave and Particle Velocity Is the velocity of a wave moving along a cord the same as the velocity of a particle of a.

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

Lecture Outline Chapter 13 College Physics, 7 th Edition Wilson / Buffa / Lou © 2010 Pearson Education, Inc.

Chapter 12 Section 4 Wave Interactions.

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

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.

Guitar Strings and Crumbling Bridges Standing Waves and Resonance.

 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.

Wave Behavior Notes. Reflection Reflection involves a change in direction of waves when they bounce off a barrier.

Wave Transfers Energy Without Transferring Matter.

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

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.

Waves Wave - rhythmic disturbance that carries energy through matter or space. ex: water, sound, rope, springs, electromagnetic wave pulse - single disturbance,

Fig. 13-CO, p Fig , p. 456 Fig , p. 457.

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.

Objectives  By the end of this class you should be able to:  State the law of reflection.  State the principle of superposition.  Know whether two.

Wave Motion Types of mechanical waves  Mechanical waves are disturbances that travel through some material or substance called medium for the waves. travel.

Chapter 14 Vibrations and Waves. Hooke’s Law F s = - k x F s is the spring force k is the spring constant It is a measure of the stiffness of the spring.

Lecture 11 WAVE.

University Physics: Waves and Electricity

Chapter 15 Mechanical Waves.

Standing Waves.

Interference Of Waves.

Reflection & Standing waves

Unit 10: Part 1 Waves.

Hearing Biomechanics Standing waves.

MECHANICAL WAVES AND SOUND

Standing (or Stationary) Waves

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

بسم الله الرحمن الرحيم FCI.

Superposition of Waves

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

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

Chapter-16 Waves-I.

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

11-3: PROPERTIES OF WAVES.

11-3: PROPERTIES OF WAVES.

14-7 Superposition and Interference

a disturbance that travels through a material medium.

Today’s Agenda Waves (Part 1) notes Classwork: Wave Questions.

Wave Mechanics Physics 1.

Interference Of Waves.

Section2 :Wave Properties Wave: disturbance that carries energy

Summary Sinusoidal wave on a string. Summary Sinusoidal wave on a string.

Presentation transcript:

Superposition & Standing waves Chapter 14 Superposition & Standing waves

The Principle of Superposition If two or more traveling waves are moving through a medium, the resultant wave function at any point is the algebraic sum of the wave functions of individual waves. Two traveling waves can pass through each other without being destroyed or even altered.

Interference of Waves Two waves traveling to the right According to the principle of superposition, the resultant wave is: Amplitude Phase angle

Interference of Waves In phase f=0, constructive interference Some source of disturbance; A medium; Some physical mechanism through which particles of the medium can influence one another. In phase f=0, constructive interference Out of phase f=p, destructive interference Other phase f=p/3, y falls to somewhere between the extremes

Standing Waves Two waves, one traveling to the right and one to the left According to the principle of superposition, the resultant wave is: The function of a standing wave

Standing Waves In physics, a standing wave – also known as a stationary wave – is a wave that remains in a constant position.

Standing Waves in Strings The wavelength of the nth mode of vibration

Standing Waves in Strings

Standing Waves in Strings The fundamental frequency of vibration is adjusted by pressing and releasing the finger. The length of string is changed!

A two-dimensional standing wave on a disk the fundamental mode A higher harmonic standing wave on a disk with two nodal lines crossing at the center.

Beats: Interference in Time The displacement that each wave produced at a fixed point According to the principle of superposition, the resultant displacement: Amplitude varies in time

Beats: Interference in Time

That is all for the semester! Thank you!