I agree with ohlala: (http://www.amazon.com/Master-Handbook-Acoustics-Sixth-Everest/dp/0071841040/ref=sr_1_1?ie=UTF8&q...) Mine is the first edition, purchased in 1981. I'm probably due for an update.
sound wave speed and other ways they behave/react.
I have this week free to play with acoustic treatments and more. I looking for more info, some type of reference if you will. It need not be a thousand pages long, something to guide me. Im planning to build more absorption and diffusers. That sort of reference would be helpful. Illustrations of frequencies and how they behave across the spectrum, there width and speed, that sort of thing. I have a room to work on and I’m starting with a clean canvass, 18L’ x 12’H x 7 1/2H.
All that exists is a cloth 3 seater sofa and an area rug that covers approximately 80% of the cork floor. I will leave an equal sized border at all four sides for now The walls are framed, all but one contain fibreglass pink. The option is there to add pink between the floor joists. As it is they are all open. I’m trying to stay away from a suspended ceiling. But sound before looks, I would rethink the covering.
All that exists is a cloth 3 seater sofa and an area rug that covers approximately 80% of the cork floor. I will leave an equal sized border at all four sides for now The walls are framed, all but one contain fibreglass pink. The option is there to add pink between the floor joists. As it is they are all open. I’m trying to stay away from a suspended ceiling. But sound before looks, I would rethink the covering.
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Regarding, "
sound wave speed and other ways they behave/react". If you want to focus on that aspect alone, copy/paste (Sabine reverberation) in your search bar and you'll get a plethora of helps. ie: (http://www.sengpielaudio.com/calculator-RT60.htm) |
stevecham 2,251 posts 05-25-2016 7:14pm "Geoff: your experiment designed to prove exactly what?" It’s designed to illustrate how temperature of the air affects the speed of acoustic waves in the room. I.e., the acoustic waves nearer to the floor where the air is colder would be moving slower than the acoustic waves higher up in the room. Thus, the top of the acoustic wave would bend over the rest of the wave, like a wave coming into shore. And the listener would hear more of the sound. |
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