Which Golden Ratio??? .......Help

I have seen a few different golden ratio's BUT I am not sure what is the right one to use.
I have seen the Olsen one - 1X 1.25 X 3.2
Boner - 1.00 X 1.26 X 1.59
Louden - 1.0 X 1.40 X 1.9
the other one - 1 X 1.6 X 2.33

Can anybody tell me what ratio to use before I screw up my project!! Also are cathedral ceilings bad for acoustics - I have a room that has 8' 9" high walls that go up to a 16 ft vaulted ceiling!! Should I build a dry-wall ceiling and cut off the top part of the peak/ cathedral??

Thanks for any HELP!!
Audio Asylum has a room acoustics forum moderated by Rives. I would suggest searching there and/or asking the same question. The Rives web site also has a demo version of the CARA software where you can input room dimensions and see the theoretical room response of various speakers. I did this but didn't see much improvement from going from my not so good dimensions to "golden ratio" dimensions (don't recall exactly what the ratio was, though).
For those of you who may be wondering what this discussion is all about, there is a fascinating new book out called "The Golden Ratio", written by Mario Livio, Ph.D., the head of the Science Divison at the Space Telescope Science Institute. It is "The story of PHI, the world's most astonishing number". PHI is an irrational number 1.6180339887... that was first defined by Euclid who was studying construction of the pentagon (the five sided figure in geometry).

Livio traces the evolution of understanding of PHI over 2000 years of history and its real and imagined application to everything from mollusk shells, sunflower florets, crystals in materials, the shape of galaxies, the pyramids, art, and the stock market.

PHI can be derived in many ways and is closely related to the Fibonacci sequence (0,1,1,2,3,5,8,13,21, etc). Every next number being the sum of the previous two.

Cardas has adopted PHI in the design of cables and the placement of speakers. His ideal room design also follows the Fibonacci sequence. (For example: 8Hx13Wx21L)

Whether you have a strong math background or not, this book is very easy and intersting reading. You can just skip the proofs in the appendices.
Whoa, you must be single, right?
You have an interesting room, so even if you do not have a wife to smack you down on this issue, control the urge to turn your room into a boring cubicle!
Find your magic formulas and apply them, but they won't work in every room for every type of furnishing, etc. The important part will be sitting down, listening, then bouncing-up again to make small changes in the speaker positions many times until you have it right. Use pieces of tape on the floor/carpet so that you can see/measure the differences as you move the speakers.
There is a link to the Rives Forum located on the home page of audioasylum.com. You might also check out Audio Asylum's FAQ section which contains additional links that should be of interest.

Hope your room turns out to be different, but the only symmetrically shaped octagon room I've spent time in (this one had plaster walls, suspended wood floors and a high domed ceiling) made a good echo chamber.
I pick the women I date according to how their proportions coincide with Mr. Fibonacci's numbers.

My last girlfriend had measurements of 55 34 55. She was quite a looker and could protect me in any situation as well.