Physics 1251 The Science and Technology of Musical Sound Unit 2 Session 14 MWF Human Perception: Loudness Unit 2 Session 14 MWF Human Perception: Loudness.

Slides:

Advertisements

Similar presentations

SOUND PRESSURE, POWER AND LOUDNESS MUSICAL ACOUSTICS Science of Sound Chapter 6.

Advertisements

Identifying Frequencies. Terms: LoudnessPitchTimbre.

Physics 1251 The Science and Technology of Musical Sound Unit 2 Session 13 MWF Sound Intensity Level and dB Unit 2 Session 13 MWF Sound Intensity Level.

Hearing Detection Loudness Localization Scene Analysis Music Speech.

CHAPTER 12 Loudness and Pitch. Loudness/Pitch Loudness--psychological experience most directly related to sound pressure/intensity Pitch--psychological.

Properties of Sound EQ: How does intensity, loudness, frequency and pitch affect sound waves?

Structure of human ear Understanding the processes of human auditory system are key for posting requirements for architectural acoustics. This gives us.

3/16/2010IB Physics HL 21 Medical Physics:Hearing - IB Objectives I.1.1Describe the basic structure of the human ear I.1.2State and explain how sound pressure.

All sounds are produced by the vibration of matter. If there is no vibration, there is no sound.

A.Diederich– International University Bremen – Sensation and Perception – Fall Frequency Analysis in the Cochlea and Auditory Nerve cont'd The Perception.

Exam and Assignment Dates Midterm 1 Feb 3 rd and 4 th Midterm 2 March 9 th and 10 th Final April 20 th and 21 st Idea journal assignment is due on last.

PH 105 Dr. Cecilia Vogel Lecture 10. OUTLINE  Subjective loudness  Masking  Pitch  logarithmic  critical bands  Timbre  waveforms.

SUBJECTIVE ATTRIBUTES OF SOUND Acoustics of Concert Halls and Rooms Science of Sound, Chapters 5,6,7 Loudness, Timbre.

Hearing Detection Loudness Localization Scene Analysis Music Speech.

Sensory Systems: Auditory. What do we hear? Sound is a compression wave: When speaker is stationary, the air is uniformly dense Speaker Air Molecules.

Reading Assignment! We’ll discuss the chapter by Gregory in your book on Friday of next week.

Lecturer: Rob van der Willigen

PH 105 Dr. Cecilia Vogel Lecture 9. OUTLINE  Finish ear/hearing  Source power level  Sound loudness  sound intensity level  sound pressure level.

Hearing Detection Loudness Localization Scene Analysis Music Speech.

EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 1 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision.

CS Spring 2011 CS 414 – Multimedia Systems Design Lecture 2 –Auditory Perception and Digital Audio Klara Nahrstedt Spring 2011.

Physics 1251 The Science and Technology of Musical Sound Session 43 MWF Summary and Review Session 43 MWF Summary and Review.

Physics 1251 The Science and Technology of Musical Sound Unit 2 Session 12 MWF The Human Ear Unit 2 Session 12 MWF The Human Ear.

Daily Challenge, 10/26 WHAT IS SOUND? Earlier, we saw how waves on a Slinky can cancel each other, add together to make one big wave, pass through each.

Acoustics and Noise. Physics of Sound Sound is a response to pressure waves  = c = ° C in air Amplitude: Pressure [N/m 2 ] Intensity: Amplitude.

Resonance, Sound Intensity, & Sound Quality Resonance, Sound Intensity, & Sound Quality.

Psychoacoustics: Sound Perception Physics of Music, Spring 2014.

KTH ROYAL INSTITUTE OF TECHNOLOGY Sound, the Auditory System, and Pitch Perception Roberto Bresin DT2350 Human Perception for Information Technology Copyright.

The ear and perception of sound (Psychoacoustics) General Physics Version Updated 2014July07 1.

Hearing Chapter 5. Range of Hearing Sound intensity (pressure) range runs from watts to 50 watts. Frequency range is 20 Hz to 20,000 Hz, or a ratio.

Day 6 Exam I is on Thursday. Be sure to attend lab this week.

Properties of Sound Physical Science Ms. Pollock

Last lesson Learning to listen Sound as vibrations Amplitude and volume Frequency and Pitch Range of human hearing.

Sound in everyday life Pitch: related to frequency. Audible range: about 20 Hz to 20,000 Hz; Ultrasound: above 20,000 Hz; Infrasound: below 20 Hz Loudness:

1 Loudness and Pitch Be sure to complete the loudness and pitch interactive tutorial at … chophysics/pitch/loudnesspitch.html.

Chapter 7: Loudness and Pitch. Loudness (1) Auditory Sensitivity: Minimum audible pressure (MAP) and Minimum audible field (MAF) Equal loudness contours.

HEARING MUSICAL ACOUSTICS Science of Sound Chapter 5 Further reading: “Physiological Acoustics” Chap. 12 in Springer Handbook of Acoustics, ed. T. Rossing.

BA , 1 Basic Frequency Analysis of Sound Contents: Frequency and Wavelength Frequency Analysis Perception of Sound.

Sensory Systems: Auditory. What do we hear? Sound is a compression wave: When speaker is stationary, the air is uniformly dense Speaker Air Molecules.

Reading Assignment! We’ll discuss the chapter by Gregory in your book on Thursday of next week.

SOUND PRESSURE, POWER AND LOUDNESS MUSICAL ACOUSTICS Science of Sound Chapter 6.

Loudness level (phon) An equal-loudness contour is a measure of sound pressure (dB SPL), over the frequency spectrum, for which a listener perceives a.

CHAPTER 12: SOUND Sound is a longitudinal wave. Sound comes from a source, travels in a medium, as longitudinal waves, and is sensed by our ear.

What do we hear? Sound is a compression wave - it only “looks” like a wave if we plot air pressure against time time -> Air Pressure Period - amount of.

Hearing Detection Loudness Localization Scene Analysis Music Speech.

13-2: Sound Intensity and Resonance Objectives: Calculate the intensity of sound waves. Relate intensity, decibel level, and perceived loudness. Explain.

AUDITORY FUNCTION.  Audition results from sound conduction by either air or bones of the skull or both. Sound waves are converted (mechanically in.

Chapter 12 Preview Objectives The Production of Sound Waves

Properties of Sound. Loudness Loudness describes your perception of the energy of sound – It describes what you hear The closer you are to the sound,

SOUND PRESSURE, POWER AND LOUDNESS

Sound Intensity Level – Learning Outcomes

Physics Section 12.2 Apply the sound properties of intensity and resonance Intensity is the rate at which energy flows through a unit area perpendicular.

SOUND FUNDAMENTALS Prepared by:SHUBHAM UMAKANT GUPTA En no

Sound. Sound Intensity Intensity – the rate of energy flow through a given area.

HEARING MUSICAL ACOUSTICS Science of Sound Chapter 5 Further reading: “Physiological Acoustics” Chap. 12 in Springer Handbook of Acoustics, ed. T. Rossing.

SPATIAL HEARING Ability to locate the direction of a sound. Ability to locate the direction of a sound. Localization: In free field Localization: In free.

4. The Ear and the Perception of Sound (Psychoacoustics) Updated May 13,

Noise & Sound Graeme Murphy – National Brand Manager, Industrial Equipment.

Physics 1251 The Science and Technology of Musical Sound

PSYCHOACOUSTICS A branch of psychophysics

CHAPTER 13 Sound.

Mechanics of the Ear Loudness and other Features Hearing Risk

Speech Perception CS4706.

Psychoacoustics: Sound Perception

Sound Intensity = Power / Area (Watts / Meter2)

Fundamentals of Sensation and Perception

Fundamentals of Sensation and Perception

All sounds are produced by the vibration of matter

Properties of Sound EQ: How does intensity, loudness, frequency and pitch affect sound waves?

Properties of Sound EQ: How does intensity, loudness, frequency and pitch affect sound waves?

Presentation transcript:

Physics 1251 The Science and Technology of Musical Sound Unit 2 Session 14 MWF Human Perception: Loudness Unit 2 Session 14 MWF Human Perception: Loudness

Physics 1251Unit 2 Session 14 Human Perception: Loudness Foolscap Quiz: A sound has an intensity of W/m 2. What is the Sound Intensity Level (SIL) in dB? Pass the sheet to your left when you finish. Please do not use your notes. Thank you! SIL = 10 Log ( I / I threshold ) SIL = 10 Log (.005/ (1 x )) SIL = 10 Log ( 5 x 10 9 ) = 97 dB.

Physics 1251Unit 2 Session 14 Human Perception: Loudness 1′ Lecture: Loudness is the magnitude of the sensation produced by a sound; the “amount” of sound. Loudness is the magnitude of the sensation produced by a sound; the “amount” of sound. Loudness (in sone) is how many times larger (or smaller) the sensation is judged to be, relative to a tone of SIL=40 dB at 1000 Hz. Loudness (in sone) is how many times larger (or smaller) the sensation is judged to be, relative to a tone of SIL=40 dB at 1000 Hz. Loudness Level (in phon) is equal to the SIL at 1000 Hz that produces the same magnitude of sensation. Loudness Level (in phon) is equal to the SIL at 1000 Hz that produces the same magnitude of sensation.

Physics 1251Unit 2 Session 14 Human Perception: Loudness The Human Ear is a “non-linear Sensor” Physics ⇒ Physiology ⇒ Perception

Physics 1251Unit 2 Session 14 Human Perception: Loudness Human Aural Response: Intensity → Loudness Intensity → Loudness Frequency →Pitch Frequency →Pitch Vibration Recipe →Timbre Vibration Recipe →Timbre Frequency Vibration Recipe Intensity Intensity Vibration recipe Intensity IntensityFrequency But…

Physics 1251Unit 2 Session 14 Human Perception: Loudness “Resonant” Frequency vs Location on Basilar Membrane 20 kHz 20 Hz Range of Maximum Sensitivity

Physics 1251Unit 2 Session 14 Human Perception: Loudness The Density of Hair C ells (HC) varies with distance from the stapes. Fewer HC More HC

Physics 1251Unit 2 Session 14 Human Perception: Loudness Fletcher- Munson Diagram Fletcher and Munson (1933) J. Acoust. Soc. Am. 5, Frequency (Hz) SIL(dB) Loudness (phon)

Physics 1251Unit 2 Session 14 Human Perception: Loudness 80/20 The Fletcher-Munson Diagram is a plot of the SIL (in dB) versus frequency for the SIL required to produce an equal sensation as that produced at 1000 Hz. 80/20 The contours are of equal loudness level. 80/20 The unit of loudness level is the phon.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Fletcher- Munson Diagram Fletcher and Munson (1933) J. Acoust. Soc. Am. 5, Frequency (Hz) SIL(dB)

Physics 1251Unit 2 Session 14 Human Perception: Loudness Auditory Demonstration #6 Houstma and Rossing Institute for Perception Research (IPO) Einhoven, The Netherlands & Acoustical Society of America Track 17,18 Count the number of tones you that can hear at each of the following frequencies: can hear at each of the following frequencies: 125, 250, 500, 1000, 2000, 4000, 8000 Hz.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Using the Fletcher- Munson Diagram Determine the SIL necessary to have a Loudness Level of 70 phon at 200 Hz, 2000 Hz and 10,000 Hz.

Frequency (Hz) SIL(dB) Physics 1251Unit 2 Session 14 Human Perception: Loudness Using the Fletcher- Munson Diagram Determine the SIL necessary to have a Loudness Level of 70 phon at 200 Hz, 2000 Hz and 10,000 Hz.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Fletcher- Munson Diagram Fletcher and Munson (1933) J. Acoust. Soc. Am. 5, Frequency (Hz) SIL(dB) Equal Loudness (70 phon) 200 Hz—70 dB 2 kHz—70 dB 10 kHz—75 dB

Frequency (Hz) SIL(dB) Physics 1251Unit 2 Session 14 Human Perception: Loudness Using the Fletcher- Munson Diagram Using the F-M Diagram determine the Loudness Level of an 80 dB tone at 100 Hz, 400 Hz and 8000 Hz.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Fletcher- Munson Diagram Fletcher and Munson (1933) J. Acoust. Soc. Am. 5, Frequency (Hz) SIL(dB) phon 81 phon 72 phon Loudness (phon) 80 dB

Physics 1251Unit 2 Session 14 Human Perception: Loudness Fletcher- Munson Diagram Fletcher and Munson (1933) J. Acoust. Soc. Am. 5, Frequency (Hz) SIL(dB)

Physics 1251Unit 2 Session 14 Human Perception: Loudness Since the Loudness Level for a given frequency can be approximated by a linear function of the Intensity Level, Thus: LL ≈ A f (SIL – SIL threshold ), 80/20 One of the settings of a Sound Level Meter (filter switch “A”) modifies the calibration of the instrument to account for the frequency dependence of human hearing. 80/20 The Sound Level is reported then as “dBA.”

Physics 1251Unit 2 Session 14 Human Perception: Loudness Sound Level Meter Measures Measures Sound Intensity Level (SIL) in dB

Physics 1251Unit 2 Session 14 Human Perception: Loudness Loudness 80/20 A subjective measure of the magnitude of auditory sensation is called Loudness and is measured in sone. In this system, one listens to two sounds and judges how much louder or softer a test sound is compared to the reference. For example, a sound of 2 sone sounds twice as loud as a tone of 1 sone.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Auditory Demonstration #7 Houstma and Rossing Institute for Perception Research (IPO) Einhoven, The Netherlands & Acoustical Society of America Track 19,20 Estimate how loud each of the sound samples is, compared to the reference sound sample. The reference is presented first along with the loudest and softest sounds.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Loudness Scaling Loudness L ∝∛ I 80/20 Thus, an eight (8) singer ensemble sounds about twice (2x) as loud as a soloist. Because ∛ 8 = 2. Likewise, a choir of sixty-four (64) sounds about four (4x) times louder than a soloist. ∛ 64 = 4.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Summary: Loudness is the magnitude of the sensation produced by a sound; it is measured in sone. Loudness is the magnitude of the sensation produced by a sound; it is measured in sone. Loudness Level (in phon) is equal to the SIL at 1000 Hz that produces the same magnitude of sensation. Loudness Level (in phon) is equal to the SIL at 1000 Hz that produces the same magnitude of sensation. Loudness increases approximately with the cube root of intensity. Loudness increases approximately with the cube root of intensity.

Physics 1251Unit 2 Session 14 Human Perception: Loudness Summary: The loudness depends on frequency. The loudness depends on frequency.

Physics 1251Unit 2 Session 14 Human Perception: Loudness n Examination 1