Playing Music With Palm Pipes (PCV)

Slides:

Advertisements

Similar presentations

A disturbance in a medium that transfers energy and momentum

Advertisements

Chp 13 Sound and Music.

Resonance If you have ever blown across the top of a bottle or other similar object, you may have heard it emit a particular sound. The air in the bottle.

Waves and Sound Honors Physics. What is a wave A WAVE is a vibration or disturbance in space. A MEDIUM is the substance that all SOUND WAVES travel through.

Properties of sound Sound is a longitudinal wave Longitudinal waves travel at different speeds depending on the medium 25 o C 346m/s, water 1490.

SPH3U Exam Review Waves and Sound.

DO NOW 1.In an open tube resonator, there is a pressure ________ at both ends. 2.In a close tube resonator, there is a pressure _________ at the closed.

Resonance: More Practice Resonance occurs when the frequency of the forcing vibration is _________ the natural frequency of the object. A. less thanC.

SOUND WAVES Sound is a longitudinal wave produced by a vibration that travels away from the source through solids, liquids, or gases, but not through a.

Standing Waves 1 Part 1: Strings (Transverse Standing Waves) 05/03/08.

Sound Chapter 13.

Resonance in Air Columns. Closed Air Columns Column that is closed at one end and open at the other.

Vibrations, Waves, & Sound

Wave Basics – Day 1. Fill in the blank: Waves transmit ________. energy.

Waves and Sound AP Physics 1. What is a wave A WAVE is a vibration or disturbance in space. A MEDIUM is the substance that all SOUND WAVES travel through.

Resonance and Musical Instruments

Six Flags registration due next Friday!!!!!!

Standing Waves When an incident wave interferes with a reflected wave to form areas of constructive and destructive interference. When an incident wave.

Physics Behind the Music 8 mile Down to the River to Pray Barefoot Blue Jean Baby Knock Three Times Take out the Papers and the Trash How do you define.

THE PHYSICS OF MUSIC ♫. MUSIC Musical Tone- Pleasing sounds that have periodic wave patterns. Quality of sound- distinguishes identical notes from different.

Chapter 12 Objectives Differentiate between the harmonic series of open and closed pipes. Calculate the harmonics of a vibrating string and of open and.

Waves A wave is a rhythmic disturbance that carries energy through matter or space.

Chapter 15.2 – Characteristics of Waves amplitude – the maximum distance that the particles of a wave’s medium vibrate from their rest position -in a transverse.

Musical Instruments. Standing Waves  Waves that reflect back and forth interfere.  Some points are always at rest – standing waves.

A “physical phenomenon that stimulates the sense of hearing.”

13.3. Harmonics A vibrating string will produce standing waves whose frequencies depend upon the length of the string. Harmonics Video 2:34.

Chapter 13 - Sound 13.1 Sound Waves.

Sound Overview The Facts of Sound The Ear and Sound Sound Vocabulary Musical Instruments and Sound.

WAVES AND SOUND 5% AP Physics B Waves – what is a wave? Wave – a vibration or disturbance in space Mechanical Wave requirements: 1.Source of disturbance.

Sound, Wavefronts Wavefronts join points in phase Linear wavefronts.

Physics Chp 13 SOUND. Compression vs Rarefaction Pitch – how we perceive the frequency Speed depends on medium (air, water, ice) 3D – goes in all directions.

PHYS 20 LESSONS Unit 6: Simple Harmonic Motion Mechanical Waves Lesson 10: Waves and Vibrations.

SOUND WAVES & BEAT FREQUENCY. SOUND WAVES Sound waves are caused by vibrations Vibrations cause contraction and expansion of an object, which creates.

Sound Waves The production of sound involves setting up a wave in air. To set up a CONTINUOUS sound you will need to set a standing wave pattern. Three.

LET’S PLAY JEOPARDY!! Category 1Category 2Category 3Category 4Category 5 Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final.

Chapter 15 - Sound Sound wave is a longitudinal wave.

Sound AP Physics Chapter 12.

The Physics of Musical Instruments

The Physics of Music Waves

Chapter 15 Sound What is Sound? a pressure disturbance

Sound Chapter 15. What is sound? It is a ______________wave The disturbance that causes it is a __________ The vibrations are transferred through _______________.

Chapter 2 WAVES: SOUND & LIGHT 7 th Grade Science Waves carry energy from one place to another.

15.1 Properties and Detection of Sound Interference of sound waves.

Chapter 17 Sound Wave Hearing is one of our most important senses.

Sound and the Doppler Effect. Sound All sounds are produced by the vibrations of material objects They are compressional waves carried by a medium (air,

Waves Openers Mrs. V Science A. Crest, B. Wavelength, C. Trough, D. Amplitude

Sound and Music.

SPH3U: Waves & Sound Musical Instruments 2.

Lesson 2: Sound Energy.

Musical Instruments.

RED STATION How is light transmitted through matter that is translucent? Transparent? Opaque? What does a concave mirror look like? a convex mirror?

1- What is the “stuff” a wave travels through?

Write down all your GROUP MEMBER names. Number your papers 1-24.

Mechanical Wave Interactions

Standing waves.

Part 3 Harmonics Standing Waves and Pitch

15.9 WAVES - Review.

Types of Wave Describing Waves The Wave Equation

Sound Sound is a type of energy made by vibrations. When any object vibrates, it causes movement in the air particles. These particles bump into the particles.

RED STATION - Waves 1. How is light transmitted through matter that is translucent? Transparent? Opaque? 2. What does a concave mirror look like? a.

What Color is it?.

Open and Closed Pipes Sound.

14-7 Superposition and Interference

Sound Chapter 12.

Part 3 Harmonics Standing Waves and Pitch

Waves and Sound Physics.

Chapter 15 Notes Sound.

Presentation transcript:

Playing Music With Palm Pipes (PCV) The Physics of sound Playing Music With Palm Pipes (PCV)

What is Sound? Sound is a mechanical wave, or a wave that transfers energy, that is a fluctuation of pressure transmitted through some medium (like air or water), composed of frequencies which are within the range of hearing Sound is produced when an object creates vibration Humans can hear within the range of 20 Hz to 20,000 Hz (Hz or Hertz - is the unit of frequency or number of vibrations per second) If the end of the tube is uncovered such that the air at the end of the tube can freely vibrate when the sound wave reaches it, then the end is referred to as an open end. If both ends of the tube are uncovered or open, the musical instrument is said to contain an open-end air column.

Comparing pitches White Tubes – C 261 Hz 32.77 cm Red - D 293 Hz 29.20 cm Orange – E 329 Hz 26.01 cm Yellow – F 349 Hz 24.55 cm Green – G 391 Hz 21.87 cm Blue – A 440 Hz 19.48 cm Purple – B 493 Hz 17.36 cm Black – C 523 Hz 16.38 cm

Can we play a song without instruments? Green Green Orange Green Blue Green Orange Orange Red Orange Red Green Green Orange Green Blue Green Orange Red Orange Yellow Orange Red White

Orange Orange Orange Orange Orange Orange Orange Green White Red Orange Yellow Yellow Yellow Yellow Yellow Orange Orange Orange Orange Red Red Orange Red Green

Green Blue Green Orange Black Blue Green Green Blue Green Blue Green Black Purple Green Yellow Orange Purple Blue Green Green Blue Green Blue Green Blue Green

Why are there different pitches? The pitches change by either increasing the speed or the wavelength or in this case, the wavelengths may be varied by having tubes of differing lengths The higher pitch the sound the higher the frequency is. The lower the pitch the further away the wave length will be In a sound wave, the points of interference are called nodes The points of constructive interference is called the antinodes