Superposition Year 11 Physics. Some useful links showing animations of wave superposition. Here is three links to websites which provide good animations.

Slides:

Advertisements

Similar presentations

Wave Boundaries and Superposition. Noise Cancellation – Does it work? What would waves have to do with noise cancellation? Some companies sell very expensive.

Advertisements

Unit: Oscillations and Waves I.Oscillatory Motion: Amplitude, Frequency, and Velocity a)Mass on a spring b)Pendulums II.Traveling Waves a)Types and properties.

Chapter 12 Pretest Waves.

Two pulses on a string approach each other at speeds of 1 m/s. What is the shape of the string at t = 6 s? A A. B. C. D. C B C 30 0 of 250.

Pure Tones and the Sine Wave

Harmonic Series and Spectrograms 220 Hz (A3) Why do they sound different? Instrument 1 Instrument 2Sine Wave.

1 Two waves passing through the same region will superimpose - e.g. the displacements simply add Two pulses travelling in opposite directions will pass.

Copyright © 2008 Pearson Education Inc., publishing as Pearson Addison-Wesley Wave interference, boundaries, and superposition Waves in motion from one.

The Organ Pipe.  During the last two labs you explored the superposition of waves and standing waves on a string.  Just as a reminder, when two waves.

SIMS-201 Characteristics of Audio Signals Sampling of Audio Signals Introduction to Audio Information.

IT-101 Section 001 Lecture #8 Introduction to Information Technology.

Lecture 2: Wave Phenomena II and Adding up waves.

1 Two waves passing through the same region will superimpose - e.g. the displacements simply add Two pulses travelling in opposite directions will pass.

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

Harmonics and Overtones Waveforms / Wave Interaction Phase Concepts / Comb Filtering Beat Frequencies / Noise AUD202 Audio and Acoustics Theory.

A wave is the motion of a disturbance. Particles of a wave vibrate around an equilibrium position.

Chapter 11 Vibrations and Waves. n Simple Harmonic Motion A restoring force is one that moves a system back to an equilibrium position. Example: mass.

Basics of Signal Processing. SIGNALSOURCE RECEIVER describe waves in terms of their significant features understand the way the waves originate effect.

Chapter 14 Superposition and Standing Waves 2 Waves vs. Particles Particles have zero sizeWaves have a characteristic size – their wavelength Multiple.

1© Manhattan Press (H.K.) Ltd. 9.6Beats Beats (SB p. 50) Interference What is the effect of the superposition of two sound waves of slightly different.

Harmonic Series and Spectrograms

Standing waves on a string (review) n=1,2,3... Different boundary conditions: Both ends fixed (see above) Both ends free (similar to both ends fixed )

Chapter 16 Outline Sound and Hearing Sound waves Pressure fluctuations Speed of sound General fluid Ideal gas Sound intensity Standing waves Normal modes.

Sound Sound is a longitudinal wave that travels through a medium. The speed of sound depends on the properties of the medium. It travels faster in a.

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.

SUPERPOSITION OF WAVES Waves of different k vector, same frequency Counter-propagating waves Intersecting waves Waves mixing (AOM) Co-propagating, random.

Chapter 14 Waves and Sound

CH. 21 Musical Sounds. Musical Tones have three main characteristics 1)Pitch 2) Loudness 3)Quality.

Chapter 11:Vibrartions and Waves

1 Introduction to Information Technology LECTURE 6 AUDIO AS INFORMATION IT 101 – Section 3 Spring, 2005.

What is the wavelength? What is the amplitude?.

Waves. Opening scene from: Billabong Odyssey Wave Properties Wave – A rhythmic disturbance that carries energy through matter or space. Pulse – Single.

1 Physics 2 Class 16 Wave superposition, interference, and reflection.

Selected slides from lectures of February 5 and February 7.

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.

Waves Topic 11.1 Standing Waves. v The Formation.

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

1.Define the following terms: wave, frequency, period 2.Draw a simple sine waveform and label these: amplitude, wavelength, crest, trough.

Interference Interference of Waves When waves ______ at the same place at the same time, ________________ occurs.

Chapter 6 The Modes of Oscillation of Simple and Composite Systems.

1 Wave Interference: Beats 2 Beats Previously we considered two interfering waves with the same . Now consider two different frequencies. When waves.

Harmonic Series and Spectrograms BY JORDAN KEARNS (W&L ‘14) & JON ERICKSON (STILL HERE )

Types of Waves (1) Mechanical waves and electromagnetic waves

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

12.5 Stationary and progressive waves Melde’s experiment A string of fixed length l and constant tension T is set in motion by ‘bowing’ a tuning fork.

Stationary Waves Stationary waves are produced by superposition of two progressive waves.

P212c33: 1 Electromagnetic Waves Maxwell’s Equations.

12-3 Harmonics.

SOUND S4P2: Students will demonstrate how sound is produced by vibrating objects and how sound can be varied by changing the rate of vibration.

PA 114 Waves and Quanta · Unit 2: Waves PA114 Waves and Quanta Unit 2: Waves (Problem solving) Tipler, Chapters 15 & 16

Intro to Fourier Series BY JORDAN KEARNS (W&L ‘14) & JON ERICKSON (STILL HERE )

Click me for movie Get a 100% before moving on to next slide Screenshot here.

Sound Lecture 5. Goals  Understand Standing Waves  Gain an understanding of fundamental sound concepts such as intensity and beats  Learn about applications.

Waves Vocabulary. For each word, you need to: 1.Provide a physics definition 2.Write the definition in your own words 3.Draw a picture or provide an example.

Wave interference, boundaries, and superposition

Chapter 15 Mechanical Waves.

Wave Interference: Beats

Unit 10: Part 1 Waves.

(Road to discuss harmony)

Dr Richard Alexander (G44B)

Electromagnetic Waves (cont.)

EM Waves, Superposition

Wave Interactions When two waves come together, they do not bounce back from each other – instead they pass through one another. Ex: Sound waves are unaffected.

14-7 Superposition and Interference

Introduction: How to use Audacity to generate and analyze a signal.

Physics 2 Class 16 Wave superposition, interference, and reflection

Wave superposition, interference, and reflection

Vibrations and Waves.

Waves Topic 11.1 Standing Waves.

Presentation transcript:

Superposition Year 11 Physics

Some useful links showing animations of wave superposition. Here is three links to websites which provide good animations of wave superposition veInterference2.htmlhttp://id.mind.net/~zona/mstm/physics/waves/interference/waveInterference2/Wa veInterference2.html

Two simple pulses The following is an animation of the superposition of two pulses approaching from different directions.

Two waves in same direction The following is an animation of the superposition of two sine waves of same frequency and amplitude but travelling at slightly different velocities.

Two waves in opposite direction – ‘Standing Waves’ The following is an animation of the superposition of two sine waves of same frequency and amplitude but travelling from opposite directions. Note how the resultant wave is a ‘Standing Wave’

Two waves of slightly different frequencies – ‘Beats’ The following is an animation of the superposition of two sine waves of slightly different frequencies travelling in the same direction. Note how the resultant wave is a ‘Beat’ with a much lower frequency

Captured Waveforms from a Yamaha Clavinova Digital Piano Sound waveform for a Grand piano

Captured Waveforms from a Yamaha Clavinova Digital Piano Sound waveform for Vibraphone – G above middle C Note how the waveform is more sinusoidal

Captured Waveforms from a Yamaha Clavinova Digital Piano Sound waveform for Vibraphone – two G’s above middle C Note how the waveform is more sinusoidal and is now twice the frequency of the previous slide

Superposition on the Digital Piano - The individual notes are played Firstly, here are waveforms for the note G above middle C and the next D above that note. Each note has been played separately. G above Middle C The next D above this G note

Superposition on the Digital Piano - Both notes played at the same time Here is the waveform for when the note G above middle C and the next D above that note are played at the same time. Note the complex resultant waveform produced.

Captured Waveforms from a Yamaha Clavinova Digital Piano - Decaying of waveform The following is an animation of a grand piano note been played showing the decay of the signal. (Mouse click in the middle of the image to start the animation)