Ideal Room Dimensions: Is the golden ratio really that good? - AcousticsInsider.com

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hey what's up it's jessica again from

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acousticsinsider.com where i teach home

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studio acoustic treatment techniques for

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audio professionals but without all the

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voodoo i want to revisit a topic uh that

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comes up often and a very specific

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question about this topic let's talk

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about room ratios again but in

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particular the golden ratio

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because obviously that comes up a lot

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still does is the golden ratio really

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that good

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when it comes to room ratios when

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picking dimensions for your room

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i thought i'd

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test this theory a little bit by kind of

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the more more modern standards and see

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what that gives us

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let's dig in so what i've got here are a

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few of the sort of typical room ratio

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recommendations

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on the left

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which i got mainly from

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the master handbook of acoustics and on

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top is the the golden ratio as well i've

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added an example for each right because

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the way this works

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is that we always start with kind of the

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room height

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as the beginning of our calculation we

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consider that as

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sort of the unit height one and then we

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multiply that

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that number that actual number by a

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certain factor

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to get the ratios right so in the terms

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of the golden ratio for example we start

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with a room room height of one and then

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a width of 1.6 times that height and

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then 2.56

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times the height to get the length of

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the room right so i got an example here

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of what that might look like for a

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typical small room a typical home studio

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with kind of a

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about an eight-foot ceiling i'm doing

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this in metric because it's just much

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easier to kind of add the numbers into

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the calculator uh in metric than

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imperial um so just bear with me but

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like basically this is eight feet and

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the same concepts apply i just don't

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want to work with fractions why why why

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these stupid fractions with feet anyway

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so we got the golden ratio

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and then we've got a bunch of other ones

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here we've got sep maya loudon and then

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forkman and boner

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boner yes i watch a lot of family guy um

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so um

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and i kind of picked out i calculated a

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few examples that i just want to show

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you there are a bunch of others but i

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just want to give you an overview of how

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the golden ratio compares to some of

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these others by the most modern

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standards or the most kind of recent

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standards that we've got the recent

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models that we've got okay

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uh quick disclaimer obviously follow you

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guys out there who are now thinking oh

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god i have to optimize perfectly

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optimize my room down to the fraction of

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an inch

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no you don't obviously this only works

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in

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square rooms

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right the more your room deviates from a

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perfect square the less this will work

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okay so even slight angles will change

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the actual frequencies at which you will

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actually find room modes um the way the

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room is constructed will change the

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frequency and the the intensity the

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amplitude at to which degree room was

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actually built up right so all of this

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is very very theoretical just keep that

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in mind and that it only really applies

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to

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square rooms

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when you don't have a square room

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none of this really matters

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okay so just keep that in mind so on the

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right we've got our amarok room mode

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calculator which you've seen me use

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quite a few times already and i'll link

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it in in the description as well it

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basically takes

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these actual

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numbers so the actual dimensions you put

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them in here and it calculates at which

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frequencies you end up with the main

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types of modes all right it does a few

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things on top of that obviously it shows

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us where these modes sit at which

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frequency okay and it also gives us a

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kind of a visual description

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of what that room mode looks like in

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that square room there's also

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a

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cross that it plots in terms of the bolt

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area which maybe you've seen me talk

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about in

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my kind of very practical tutorial on

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how to actually use this calculator to

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size the dimensions of your particular

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room i'll link it in the card

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and then it gives us

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this bonello graph which i'll talk about

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more because it's kind of the most

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recent i guess the most accurate

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way to kind of predict

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um how good ratios are

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part of this

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so the other part that you really need

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to understand is that

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optimizing room dimensions no matter

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what

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what

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ratio you go for what kind of metric you

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go by it doesn't stop you from having

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big peaks and dips in the low end in an

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untreated room right this just says

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where the room modes sit yeah and if

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they overlap for example but it doesn't

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tell us uh or it doesn't it doesn't keep

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these room modes from happening okay so

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this is not a

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optimizing room dimensions is not a way

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to get rid of room modes optimizing room

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dimensions is a way to ideally spread

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them out evenly evenly make them not sit

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on top of each other or have huge holes

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and you get that even spread and

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basically the way to think about it is

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that it gives you a foundation

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for good potentially good low end when

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you go through the treatment process all

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right that's that's all it is yeah

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optimizing room dimensions is building

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the a good foundation for a an even low

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end okay

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so

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now let's let's dig in and look at some

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of these ratios obviously the question

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is

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if we if we try and answer how good a

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certain ratio is

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what metric do we use

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good by whose standards right

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and so that's not an easy question to

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answer yeah so i think the most the most

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kind of

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relevant one or the one that kind of

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makes the most sense to me is really the

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the boneless one uh basically bonelo

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said

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if you

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divide the spectrum up into third octave

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chunks

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you want

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the number of room modes in each chunk

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to gradually go up as you increase as

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you go up in frequency

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ideally you want to go to go up if it

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stays the same that's okay too right so

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that's kind of all we're looking for

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we're looking for

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this number here to gradually increase

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or at least stay the same

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all right

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and so with these numbers that i

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calculated here for this golden ratio

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room so 250 centimeters by 400 by 640.

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turns out there's a big hole

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right there yeah

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so uh that already not so great yeah uh

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if we look at kind of the older way to

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analyze this which is a much simpler and

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just as good to be honest way to do this

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um

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the bolt the ball area the cross doesn't

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even end up in the bolt area you know so

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this blob basically is a as a as a

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region in in in

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in the different

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plots of uh or in the different

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combinations of dimensions

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if you if you kind of plot this if if

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that if you plot that that cross

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and it ends up inside this bot area you

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basically have a basis for good

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dimensions yeah and so even in this case

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that doesn't end up where it's what's

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supposed to be yeah so

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um the golden ratio not so great at

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least with these numbers that i picked

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okay

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that might change a little bit does it

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change

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i mean it scales it scales obviously in

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frequency it scales in

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pure dimension

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uh

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sort of numbers as in when we're talking

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about actual lengths

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and we're talking about how that maps to

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notes

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in the in music that's a different

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question but um yeah let's not dive into

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that hole any further um basically

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right now it's not looking good for the

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golden ratio

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so let's go over to seppmeyer all right

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so there's a bunch here that

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that um everest lists in his book i

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think there are more

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but i basically only calculated this

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first one because i wanted to look at

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these other ones as well so here is the

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next one 250 by 285 by 347.5

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bolt

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eh just on the edge bonello not looking

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too bad

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yeah

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one other way to kind of

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judge how good this actually is

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is once once the bonnello is looking

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good

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we can look at a pile-ups so whether

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there are room modes sitting on top of

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each other right and and uh

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down here this doesn't look too bad but

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up here

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there's a there's a kind of a pileup

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happening here there's a pileup

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happening here all that might might mean

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that that area might be a little a

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little tricky in the frequency range

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obviously this is kind of

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easily like way above 100 hertz so it

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shouldn't be too difficult to treat this

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with the treatment or to get control of

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this with treatment but that's just

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something to be aware of okay all right

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so sapmyer in its first version not too

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bad let's move on loudon in this first

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one

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so

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250 by 350 by

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4.75 at bonello again

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that looks pretty good jumping over to

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the bolt area right smack in the middle

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not bad

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and in terms of

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pile ups maybe

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one here just under 100 hertz a bunch of

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stuff happening up here over here but

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this is way above 100 hertz should be

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relatively easily treated

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so loudon

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looking pretty good so far at least this

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particular ratio

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okay here's another one faulkman

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let's look at this dude 250 times 375

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times 625.

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that's not looking good bolt just on the

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edge but bonello not so much yeah we've

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got two two steps

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uh where the number actually increases

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yeah so

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this is not particularly good uh um at

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least by boneless standards right and

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we've got some pileups here again

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pileups here yeah so uh yeah maybe you

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wouldn't want to pick that one okay

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let's go for boner boner

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all right so here's boner

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bolt looking good bonnello looking

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pretty good

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in terms of pile-ups

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yeah this doesn't this doesn't look too

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great

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over here either yeah some pileups here

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as well

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yeah so this one although good by these

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two metrics bolt and bonello if you we

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actually look at where the room modes

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end up um

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maybe it's not the grade the the kind of

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the the greatest ratio the best uh

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option

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okay so as a quick overview i think

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that's uh pretty clear yeah the golden

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ratio

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at least by modern standards for room

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ratios in this particular example

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not so great your mileage might vary if

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you mess around with these numbers

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but

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i probably wouldn't pick that as my

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first choice i'd probably go with uh

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with one of these other ones and just

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check whether with what i've got

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available uh they work out and then and

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then maybe go with those right but again

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a reminder don't obsess about this it's

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not worth it yeah this is very very

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theoretical in practice

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your room's

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actual room mode pattern will deviate

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from this calculation quite a bit even

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just windows doors

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if you one wall is made from drywall if

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your floor your ceiling is particularly

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flimsy all this stuff has an impact on

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the actual pattern and the the spread or

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the the location of these actual room

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modes and then these calculations become

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kind of

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pointless yeah so don't obsess about

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this it's it's fun enough to check

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what's going on

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but then just kind of

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pick something and then just move on or

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just as a reminder if you are currently

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in the process of treating your room or

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you want to treat your room and you need

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kind of a an overview of what it is

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you're actually doing figure out in what

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order to walk through the different

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steps of treating your room i want you

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to download my home studio treatment

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framework at the link in the description

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it's my five steps to treating a home

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studio it's the same process that i go

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through when i treat a home studio

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it's the same process that i think you

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should go through in order to not turn

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in circles while you're moving through

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this fairly complex topic right so make

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sure you follow the steps in the home

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studio treatment framework so that you

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can

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be sure that you're doing the right

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thing at the right time obviously this

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is part of that as well it's the first

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step in the process analyzing the room

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and there's a bit of context in there as

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well and how to think about this

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but again if you are in the process of

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treating your home studio make sure you

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download that at the link in the

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description

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okay that was a quick one a video about

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the golden ratio

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some more context into this whole topic

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of picking room dimensions picking

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ratios i hope you got something out of

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it as always let's get back to trusting

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our ears and having fun making music in

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the studio i'll see you in the next

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video