Acoustics Waveform Frequency Intensity Resonance Sound Propagation.

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Presentation transcript:

Acoustics Waveform Frequency Intensity Resonance Sound Propagation

Waveform X-axis (time or wavelength) Y-axis (amplitude)

Frequency Refers to how many oscillations (i.e., back and forth vibrations) occur during 1 second. Older term for frequency was cycles per second. Current term for frequency is Hertz (Hz).

Frequency

Example of Frequency & Intensity

Frequency Different frequencies are perceived as different pitches. Young normal hearing people can hear frequencies between 20 and Hz. Most important speech sounds range between 500 to 6000 Hz. –500 Hz1000 Hz –2000 Hz6000 Hz

Intensity The scale used to measure intensity is the decibel (dB). Non-linear scale… that is, doubling intensity only increased overall dB level by 6 dB. –e.g., = 36 dB… = 56 dB

Intensity –20 dB Whisper –30 dB Soft speech –50 dB Normal conversational speech –70 dB Loud speech –90 dB Shouting –100 to 120 dB rock band –120 dB threshold of pain –140 dB jet engine or high powered rifle

Intensity Loud sounds can damage hearing. OSHA requires workers working in environments above 90 dB to wear ear protection. Incidence of noise induced hearing loss is increasing among younger people.

Intensity Examples of dangerous noise sources… –Firearms, chainsaws, music (especially for musicians, bartenders, waiters/waitresses,), racecars, snowmobiles, etc. Only effective ear protection are foam earplugs and ear muffs.

Resonance Definition: vibratory response to an applied force. Resonator: An object which causes air molecules to resonate. –Examples: tuning forks, vocal tracts, ear canal, guitar string, pop bottle, etc. Resonate Frequency: Frequency where the greatest amplification (resonates) occurred.

Resonators Wavelength Resonator –A tube…. Length will determine resonant frequency. –Examples include: Trombone, vocal tract, ear canal.

Resonators Hemholtz Resonator –Enclosed capsule of air…. Size of hemholtz resonator determines resonant frequency. –Examples include: jug, parts of the vocal tract.

Sound Propagation Deals with how sound travels. Sound Production: Begins when force causes an object to vibrate causing adjacent air particles to vibrate. –tuning forks, vibrating vocal folds, etc. After air particles begin to vibrate they literally bounce into one another and a sound wave occurs.