Check with http://www.rivesaudio.com. They will be able to give lots of helpful advice.
Bad room for sound?
I'm starting to address the room acoustic issue with my listening room. I just measured my listening room and the dimensions of 237" by 157" are an almost exact 3:2 ratio. Is this ratio bad for sound? I would expect bass re-enforcement at some frequency.
How can I calculate that frequency? Am i correct that the lowest resonant frequency would be one full wave length across the room (which would also be one and a half full wave lengths down the length of the room)? I think that the speed of sound is about 1140 ft/sec. The room width is about 13 ft. So 1140 ft/sec divided by 13 ft/cycle equals about 88 Hz?
Also, I have hardwood floors that are old and are fairly "springy". I can feel bass vibrations in some parts of the floor but not in others. Should I add support under the floor?
Lastly, I have a Radio Shack SPL meter and I've ordered the first three Stereophile test CD's. Will I be able to measure any bass 'hump' with these tools?
I know that some of these topics have been covered in the past. Sorry if I'm repeating dead issues. Thanks all...
How can I calculate that frequency? Am i correct that the lowest resonant frequency would be one full wave length across the room (which would also be one and a half full wave lengths down the length of the room)? I think that the speed of sound is about 1140 ft/sec. The room width is about 13 ft. So 1140 ft/sec divided by 13 ft/cycle equals about 88 Hz?
Also, I have hardwood floors that are old and are fairly "springy". I can feel bass vibrations in some parts of the floor but not in others. Should I add support under the floor?
Lastly, I have a Radio Shack SPL meter and I've ordered the first three Stereophile test CD's. Will I be able to measure any bass 'hump' with these tools?
I know that some of these topics have been covered in the past. Sorry if I'm repeating dead issues. Thanks all...
5 responses Add your response
Your dimensions aren't terrible. You are going to get a bump at 86 Hz, that is the 2 and 3rd axial modes (because of the 3:2 ratio). Depending on your ceiling height you could have some other areas of concern, but you accurately predicted the first problem (we use 1130 ft/sec--but that's at 1 atmosphere pressure so these measurements are relative). There are things you can do to deal with the issue from passive acoustical systems that can be designed (depending on how far you want to go) or you can deal with the bass hump problem utilizing a device such as our PARC. The other resource I would point you to would be our room simulator. It allows you to plug in your room dimensions and move the speakers and listener around and see what it does to the peaks and nulls in the bass frequencies. |
Thanks for the responses so far. My ceiling is vaulted from 9' to 11' and so I don't see any problem there. I guess my main concern is that I'm looking at upgrading to some speakers that have significant bass and I don't want to end up too heavy on the bass. Also, I like clean bass, without any "boominess". I also heard that the Rives solution was very effective at the show. I've already set my speaker position according the the Rives website. The sound has opened up and the imaging has really improved. I'll run the room simulator next. Good work Rives!!!! |