Presentation is loading. Please wait.

Presentation is loading. Please wait.

NORMAL MODES AND COUPLED ROOMS ACOUSTICS OF CONCERT HALLS AND ROOMS Principles of Vibration and Sound Chapters 6 and 11.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "NORMAL MODES AND COUPLED ROOMS ACOUSTICS OF CONCERT HALLS AND ROOMS Principles of Vibration and Sound Chapters 6 and 11."— Presentation transcript:

1 NORMAL MODES AND COUPLED ROOMS ACOUSTICS OF CONCERT HALLS AND ROOMS Principles of Vibration and Sound Chapters 6 and 11

2 NORMAL MODES IN CAVITIES THE WAVE EQUATION IN THREE DIMENSIONS: IN RECTANGULAR COORDINATES, THIS BECOMES: WHOSE SOLUTIONS ARE:

3 SOLUTIONS TO THE WAVE EQUATION IN RECTANGULAR COORDINATES WHERE a,b, and c ARE THE ROOM DIMENSIONS and l, m, and n are three integers that denote the number of half-wavelengths in the 3 directions CORRESPONDING MODE FREQUENCIES ARE: (SEE CHAPTER 6 IN ROSSING AND FLETCHER)

4 a) (2,0,0) axial mode b) (3,2,0) tangential mode CONTOURS OF EQUAL SOUND PRESSURE IN A RECTANGULAR ROOM

5 DISTRIBUTION OF MODE FREQUENCIES FOR 2 ROOMS l : w : h = 2 : 2 : 2 l : w : h = 3 : 2 : 1

6 FREQUENCY DISTRIBUTION OF ROOM MODES A CUBE HAS A VERY “PEAKY” RESPONSE; A RECTANGULAR ROOM WITH DIMENTIONS 3 : 2 : 1 HAS A MORE EVEN SPREAD. THE “GOLDEN RATIO’ 1.618 : 1 : 0.618 IS EVEN BETTER NUMBER OF MODES WITH FREQUENCIES FROM 0 TO UPPER LIMIT f : ABOVE THE SCHROEDER CUTOFF FREQUENCY f sc THE RESONANCE PEAKS BECOME A SMOOTHED OUT CONTINUUM, AND THE SUM OVER MODE INDICES CAN BE APPROXIMATED BY AN INTEGRAL

7 WALLS AND NOISE BARRIERS WHEN A SOUND WAVE STRIKES A SOLID WALL, THE LARGEST PART IS REFLECTED WHEREAS SMALLER PORTIONS ARE ABSORBED AND TRANSMITTED THROUGH THE WALL THE TRANSMISSION COEFFICIENT τ IS GIVEN BY τ = I T / I 0 AND THE TRANSMISSION LOSS IN dB IS WHERE M IS THE WALL MASS DENSITY AND f IS THE FREQUENCY. TRANSMISSION LOSS MAY FALL BELOW THIS PREDICTED VALUE, HOWEVER, DUE TO WALL RESONANCES, LEAKS AND CRACKS, AND ESPECIALLY EXCITATION OF BENDING WAVES AT THE CRITICAL FREQUENCY (WHERE THEY TRAVEL AT THE SAME SPEED AS CERTAIN SOUND WAVES IN THE AIR)

8 TRANSMISSION LOSS (TL) OF A WALL AS A FUNCTI ON OF MASS AND FREQUENCY

9 TRANSMISSION LOSS (dB) WITHOUT A HOLE

10 COUPLED ROOMS TWO ROOMS COUPLED BY AN OPENING WITH AREA S

11 ENERGY DENSITY IN ROOM 1 CONTAINING THE SOURCE ENERGY DENSITY IN TWO ROOMS TREATED AS A SINGLE SPACE SOUND POWER ABSORBED IN TWO ROOMS (ASSUMING DIFFUSE SOUND FIELDS ARE A 10 E 1 c/4 and A 20 E 2 c/4. POWER TRANSFERRED FROM ROOM 1 TO ROOM 2 IS SE 1 c/4 and POWER TRANSFERRED FROM ROOM 2 TO ROOM 1 IS SE 2 c/4 DERIVATION APPEARS IN PRINCIPLES OF VIBRATION AND SOUND 2 nd ed., CHAPTER 11 (ROSSING AND FLETCHER, 2004).

12 REVERBERATION IN COUPLED ROOMS IF THERE IS NO POWER SOURCE IN THE ROOMS, THE SOUND DECAY CAN BE WRITTEN THE SOLUTION TO THESE TWO EQUATIONS LEADS TO COMPOUND REVERBERATION DECAY CURVE WITH TWO SLOPES.

13 DECAY OF REVERBERANT SOUND IN A ROOM WITH DIFFERENT REVERBERATION TIMES IN TWO COUPLED SUBSPACES

14 COMPOUND REVERBERATION DECAY CURVE IN A ROOM WITH A COMPOUND DECAY CURVE, A LISTENER MIGHT CHARACTERIZE THE HALL AS “DRY” ON THE BASIS OF THE FASTER INITIAL DECAY EVEN THOUGH THE 60-dB DECAY IS SLOW. THE EARLY DECAY TIME (EDT) IS AN IMPORTANT ROOM PARAMETER. SCHROEDER et al. (1974) FOUND THAT AUDIENCES PREFER EDT OF ABOUT 2 SECONDS.

Download ppt "NORMAL MODES AND COUPLED ROOMS ACOUSTICS OF CONCERT HALLS AND ROOMS Principles of Vibration and Sound Chapters 6 and 11."

Similar presentations

Noise Control & Room Modes

Noise Control & Room Modes
Introduction to RF for Accelerators

Introduction to RF for Accelerators
SOUND WAVES, REFLECTION & REFRACTION

SOUND WAVES, REFLECTION & REFRACTION
Chapter 29 Reflection and Refraction

Chapter 29 Reflection and Refraction
The Asymptotic Ray Theory

The Asymptotic Ray Theory
Reflection, Diffraction, Refraction, Diffusion

Reflection, Diffraction, Refraction, Diffusion
ROOM ACOUSTICS DEFINITION: INTRODUCTION SOUND ABSORPTION

ROOM ACOUSTICS DEFINITION: INTRODUCTION SOUND ABSORPTION
Chapter 13 Sound Properties of Sound – the source of all sound waves is vibration  Sound waves – longitudinal waves – the particles in the medium are.

Chapter 13 Sound Properties of Sound – the source of all sound waves is vibration  Sound waves – longitudinal waves – the particles in the medium are.
Waves What are waves?.

Waves What are waves?.
Auditorium Acoustics Chapter 23. Sound Propagation Free field sound pressure proportional to 1/r SPL drops 6 dB with every doubling of distance. Indoors.

Auditorium Acoustics Chapter 23. Sound Propagation Free field sound pressure proportional to 1/r SPL drops 6 dB with every doubling of distance. Indoors.
Acoustics of Concert Halls and Rooms SOME BASICS OF ARCHITECTURAL ACOUSTICS Auditorium Acoustics Science of Sound, Chapter 23 Principles of Vibration and.

Acoustics of Concert Halls and Rooms SOME BASICS OF ARCHITECTURAL ACOUSTICS Auditorium Acoustics Science of Sound, Chapter 23 Principles of Vibration and.
Chapter 2: Sound Review PowerPoint. Describe resonance. How can it be useful? Resonance occurs when an object is made to vibrate at its natural frequency.

Chapter 2: Sound Review PowerPoint. Describe resonance. How can it be useful? Resonance occurs when an object is made to vibrate at its natural frequency.
BASIC CONCEPTS IN ARCHITECTURAL ACOUSTICS ENVIRONMENTAL CONTROL III

BASIC CONCEPTS IN ARCHITECTURAL ACOUSTICS ENVIRONMENTAL CONTROL III
By Aimee Chavez. Wave: a disturbance that transfers energy from place to place. The material through which a wave travels through is called a medium.

By Aimee Chavez. Wave: a disturbance that transfers energy from place to place. The material through which a wave travels through is called a medium.
PREDICTION OF ROOM ACOUSTICS PARAMETERS

PREDICTION OF ROOM ACOUSTICS PARAMETERS
8. Wave Reflection & Transmission

8. Wave Reflection & Transmission
SONOROUS ENERGY Charo Cañero, Andrea Jiménez y Teresa Galán.

SONOROUS ENERGY Charo Cañero, Andrea Jiménez y Teresa Galán.
Lecture 1 – Waves & Sound c) Sound.

Lecture 1 – Waves & Sound c) Sound.
GEOMETRICAL DESIGN STUDIES ACOUSTICS OF CONCERT HALLS AND ROOMS Handbook of Acoustics, Chapter 9 Long, Architectural Acoustics, Chapter 19.

GEOMETRICAL DESIGN STUDIES ACOUSTICS OF CONCERT HALLS AND ROOMS Handbook of Acoustics, Chapter 9 Long, Architectural Acoustics, Chapter 19.
STUDIOS AND LISTENING ROOMS

STUDIOS AND LISTENING ROOMS

Similar presentations

Ads by Google