Here are some photos I took of some existing guitars' top bracing this weekend. I am sure there are other better ways to do this, but this worked OK or me and I thought I'd pass it on in case it helps. I'm no expert on this with one day's experience.
All these photos were taken in a completely dark room except for a low light source about 15 feet away off to the side of the guitar (providing a small amount of indirect light). The same focal length of 50mm was used for each shot. 50mm is about how the human eye sees things and is therefore called a "normal" lens. The 50mm lens, of course on a tripod, was exactly 5 feet from the face of the guitar and at the same height off the floor as the center seam of the guitar (35" in my room). The lens pointed at the center of bridge of each guitar. All the file sizes are the same and a rule was taped to the butt of each guitar to provide a known scale. The rule is exactly 6 inches long and 1/2" wide and is taped with the 3" mark exactly on the center seam of the top. While this rule could not be used very effectively to measure bracing widths, it could be used to measure the distance between braces, etc. providing reasonable information. If I printed and overlay these photos they could be compared fairly easily.
Note that the bridge outline can be seen clearly with the larger bridge plate under it in most pictures. Using the in-room light in addition to the bulb allowed this to occur. The in-room light provides more information and clearer information than just shooting in a completely dark room with only the in-guitar light. The details of the in-guitar light are in Part 2.
While all the shots are at f3.2, any f stop would work if you can get enough time on the shutter speed. While all the shots were taken at ISO 1600, any ISO would work if you can get enough time on the shutter speed. I used an SLR on manual control. I could make a Point-and-shoot camera work except for the shot of the extended time required for the sunbust Gibson below. I don't think that one would be possible.
I left the bridge pins out to provide the lighted reference point on the photos. I had to include the bridge pins on the Gibson picture due to the extended shutter time causing the light to burn through and obscure the bridge from view. This same problem would occur if you do not close the sound hole and block the light in the pictures.
This is a Collings 2004 D2H. It was taken at f3.2 and 1.3 seconds shutter speed, ISO 1600. Basically a Martin 1930's Dread bracing copy according to Collings.
Attachment:
Collings 2004 D2HIMG_5102 reduced.jpg
This is a Collings 2000 CJ. It was taken at f3.2 and 1 second shutter speed, ISO 1600. Most people think it is a Gibson copy, but it is not. It has the same exact bracing as the Martin '30s Dread but with the slopped shoulders of the Gibson. Collings does not prefer the Gibson sound.
Attachment:
Collings 2000 CJ Mh IMG_5082 reduced.jpg
This is a Gibson 1953 Southern Jumbo with dark sunburst. It was taken at f3.2 and 30 seconds shutter speed, ISO 1600. Yes, it took 30 times more time to get the light through the dark bust compared to a natural finished top. The light never did make it thru the edges. But the in-room light allows a clear picture of what is where.
Attachment:
1953 Gibson SJ IMG_5098 reduced.jpg
Here is the same Gibby taken at the same exposure but with no in-room light (only the bulb inside the guitar). This lets you see how the in-room light helps clarify what is going on.
Attachment:
1953 Gibson SJ IMG_5096 reduced.jpg
This is a 1999 Taylor 414ce. It was taken at f3.2 and 1.6 seconds shutter speed ISO 1600.
Attachment:
1999 Taylor 314ce IMG_5074 reduced.jpg
On the next part I'll show you how I rigged the bulb up inside the guitar. Here's the link to Part 2:
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