Tom thanks for joining in... I do feel notching the bridge can be more beneficial as far as effecting more break angle, though of course this is relative to pin placement. One could set the pins farther back and then notch the bridge, and that wouldn't have an effective change on the break angle!Tom Sommerville wrote:Al,
Many thanks for your response.
Mario's observations are reasonable: notching the bridge rather than the pin would result in a sharper break angle, shifting
the centroid and obtain generally positive results.
It all depends on what kind of instrument you're trying to build of course.
Again, I'm looking forward to your paper, and grateful as hell to you for sharing a lot of hard work.
Tom
I have some theories on the pins: Since the bridge is slotted rather than the pin, it would stand to reason that there's more mass or density at the string's anchor point since the bridge pin material could be more dense than the bridge material. Maybe this wouldn't have as much an effect with an ebony bridge/ebony pins, but maybe with a rosewood bridge/bone pins.
It's pretty obvious that any change will have some type of effect. The debate I believe is whether it's discernable, and if so, does it produce a 'musical' sound.
I do find it hilarious that some luthiers claim to take off .001" of the top thickness here, shave .001" of cross bracing there, use wood with a Young's modulus that's 1% higher than comparable wood... and claim that these microscopic differences havev a huge effect. Yet if a large design change is made, extensive testing is needed to see what effect it has! Would Segovia tell Mauser to remove a sliver of wood on the fan bracing?
Or better yet, you pick two identical guitars up at the local music store. One plays and sounds like a dream. The other is a dud. It's not because they had a bad luthier at the factory. Heck they probably don't have luthiers at the factory! The woods, amount of glue and finish, etc., are all in a sense randomly done or chosen, no matter what computer cut them. Great guitars have been made with woods with crappy tap-tone, and vise versa. How does one test that? You couldn't do this by taking one guitar, then configuring it 10 ways. You'd have to do it with 1000 guitars configured 10 different ways, and evevn then, you'd always find one exceptional guitar and one dud.
So one could conclude through reason alone that these exercises are pointless, and we can go about building guitars the way we do, since these changes are insignificant [musically], or one could say that since the changes are insignificant [musically] why not do things a bit different? The truth is, it's human nature for the curious ones, myself included, to look for answers to "why" and "how" instead of saying, plainly, "Hey, I like the way this sounds!" or "I can get a vibe playing this one!" or "This guitar sucks!" (usually spoken after playing one of mine!)
In fact we do know that the break angle at the bridge can have a significant impact on how a gutar sounds. We see this regularly when a guitar comes in for a neck reset. The bridge is planed or shaved down so that the saddle can be lowered. The break angle is reduced (if the pin holes are not slotted). The customer complains that the guitar has lost some of it's oomph or volume. In fact one type of quick repair for this sort of problem, if the customer doesn't want to install a new bridge, is exactly to slot the pin holes, to create more break angle. But then when the neck moves too much, the angle past the saddle decreases, and the bridge needs to be replaced since it's too thin at that point to hold the saddle. The other case is when the soundboard starts warping behind the bridge. I'm sure this happens to many guitars built lightly to some extent. But when it happens to a significant amount, the break angle decreases at the saddle, and affects the sound.