Room Acoustics.

How sound behaves in space.

The difference between treated and untreated sound

Our perception of sound is a result of the interaction of multiple sound waves, that reflect over our environment, and interaction between sound waves themselves.

When we hear a sound in a room, the first wave that reaches you is the direct wave. As the name indicates, this wave has not interacted with the room, as it is directly from the emission source. Next, you will hear the first reflections, that normally only reflect once. We call this a first order reflection. Then, we perceive other reflections that are the result of numerous reflection from multiple surfaces. These reflection can be 2nd, 3rd or 4th orders, depending on the damping materials of the room.

The air velocity of sound is 344 m/s. The reflected waves travel a longer path, taking longer to reach the listener. This can create an echo effect, in which we perceive two distinct sounds, caused by a time distinction of over 80ms.


Reverberation time is our indicator of sound decay in the room. By definition, it's the necessary time for sound energy to decrease by 60dB.

The acoustic quality of a space is dependant of various factors: It can be related to the homogeneousity and non-homogeneousity of the sound field, and the quantity of energy in the room. These factores are engineered in accordance with the purpose of the room.

At Artnovion we have many ways of improving acoustics. Absorption, where we remove energy from the room, reducing or eliminating reflections, or through diffusion, where we scatter incoming waves, distributing their energy over a larger area.

Experience below how different sound fields affect our day-to-day environments, indicated by their RT.

We recommend you use headphones to achieve the maximum effect.

Reverbation
VOICE 0.5S
VOICE 1.5S
VOICE 3S
VOICE 6S
FALL 0.5S
FALL 1.5S
FALL 3S
FALL 6S
GLASS 0.5S
GLASS 1.5S
GLASS 3S
GLASS 6S
STEPS 0.5S
STEPS 1.5S
STEPS 3S
STEPS 6S
Rehearsal
UNTREATED
TREATED
Station
UNTREATED
TREATED
Cafe
UNTREATED
TREATED
Office
UNTREATED
TREATED

Learn more about acoustics

We're passionate about acoustics, so we're sharing our knowledge with you.