Jim: Please don't take this entirely off-list. There are some of us who have nothing to contribute in that we have no experience with this wire, but our interest is high and curiosity even higher. The last I knew the PTG server is capable of quite a bit more traffic before it gets "clogged". While some seem to have an irritation gene that gets activated by certain threads, most of us have pretty nimble delete-key-fingers capable of deftly deleting posts that don't interest us. dave _______________________ David M. Porritt, RPT dporritt at smu.edu From: caut-bounces at ptg.org [mailto:caut-bounces at ptg.org] On Behalf Of Jim Busby Sent: Tuesday, September 04, 2007 11:35 AM To: College and University Technicians Subject: [CAUT] FW: Scientific study - Stainless wire (Help!) List, No offense is meant to anyone by naming several below as "thinkers". What I meant to say is that those listed have actively written lengthy posts of their thoughts on this study. I will move this thread off CAUT to private posts mostly to them rather than clog the list. Sounds really bad, the way I worded that. Sorry. (Put foot firmly in mouth...) Regards, Jim ________________________________ From: Jim Busby Sent: Tuesday, September 04, 2007 10:26 AM To: 'College and University Technicians' Subject: RE: [CAUT] Scientific study - Stainless wire (Help!) Thanks, yet again Fred, Very detailed observations! About thumpers, it seems to me that the real issue in this study would be; 1. Ability to reproduce the exact stroke w/o variation 2. Elimination of "the human element" In this regard the Disklavier would be ideal because according to Yamaha it can reproduce what the human plays to a 100 point scale. IOW if you hit the velocity at 69 (out of 100 possible), the "machine" will reproduce it at volume 69 time and time again, as long as the machine has been calibrated and not changed during the test time. Of course this precludes human error upon reproduction on that piano. All the mechanical devices seem moot as to the validity of the testing as long as it meets the criteria above. Correct?? At least as far as the testing of wire, sound, and acoustic considerations are concerned. But hey, you're the braniac here! I'm the farmer who uses bailing wire and duct tape... Whatever method these guys use will, of course, be posted so it can be critiqued. I will pass this along to them. It is still open as to what they want to test. Hopefully we will have that narrowed down this week and the testing process can proceed. I'll definitely keep you posted. You, Jim Ellis, Ric B and Juan seem to be the most active "thinkers" in our pool of technicians (ON THIS TOPIC!!) and I'm posting privately to you more than CAUT. Jim is especially active in this study. Ric may bring a different side to the table with his European influence, and he seems to like to crunch numbers, and Juan, of course, has already done a battery of tests. Regards, Jim ________________________________ From: caut-bounces at ptg.org [mailto:caut-bounces at ptg.org] On Behalf Of Fred Sturm Sent: Tuesday, September 04, 2007 8:16 AM To: College and University Technicians Subject: Re: [CAUT] Scientific study - Stainless wire (Help!) On Aug 28, 2007, at 8:29 PM, Jim Busby wrote: We did devise a thumper, but I'm wondering is a Disklavier would be the way to go. Consistency was definitely an issue with our meager spectrum studies. I'm really hoping that these "science professors" will take the ball and run with it. That is what they do. Hi Jim, Let me give just a few quick thoughts about "thumpers" and other devises for activating a key, to give your physicists an idea of some of the problems involved. The tuning test thumper drops a weight from above the key. There is a free fall of 6 inches or so before the weight hits the keytop. It has now achieved a certain velocity, and is still accelerating with gravity (a simple calculation can give the specifics). So far so good. Now comes the moment of impact. The key is in a state of inertia, as is the whole key/action assembly. During impact, there is a period where the colliding bodies "bounce against each other." The weight slows suddenly, or possibly stops falling altogether or bounces upward (we'd need some high speed videography to know for sure what happens). The keytop absorbs this enormous force, which has impacted it suddenly. This scenario is far different in many ways from the way a pianist plays a key. If he/she plays the key with a great deal of force, slamming down from above the key (more or less like the falling weight), the difference is that the mass of the body behind the finger will push all the way through the keystroke with only a minimal "rebound" effect. And, as we have seen in various high speed films, the front of the key will hit bottom before the hammer begins to move (flex and compression allows this). But this is an unusual piano technique. Far more common is simple pressing of the key, starting with the finger contacting the keytop, and accelerating the key. This technique can be used to create a full range of the available volume of the piano (not counting percussive sounds from the key crashing into the keyframe/keybed, in that slamming action described above). And I think that any study involving tonal output of a piano ought to be based as nearly as possible on normal key activation. The problem with using a real live pianist is that you can't be sure of exact repeatability, and being exact is tremendously important in this area. Joggle a mike, play a little louder or softer, and the spectrum and even measured pitch will change. Askenfeld (did I get that right? the guy in Sweden who put together the 5 Lectures in PIano Acoustics) said in his lecture that he used a pendulum to activate a key. This makes some sense, as its velocity at impact can be controlled by how far it is allowed to swing (position before letting it go), and bounce is minimized because of the oblique angle with which it strikes the key. But it is still a rather artificial setup: a body in motion suddenly impacts the key, and the arc of movement means that the downward movement of the pendulum weight is probably decelerating (a pendulum weight moves downward most when it is at the same level as the pivot point, and it moves downward less and less as it approaches the bottom. Even though the weight is accelerating to that point, the geometry is such that its downward motion is becoming less and less). So I'm not convinced a pendulum is a good substitute for a finger. I guess the disklavier/pianodisc/pianomation systems with their controlled solenoids do a reasonable job. I haven't really fooled with them enough to have an opinion. It's going to be a sudden electromagnetic charge of a controlled amplitude creating a an electromagnetic attraction of a corresponding force. Does this replicate what a finger does? I think a finger has more possibilities, in terms of how much acceleration it imparts to the key in any given portion of the key travel. (I have puzzled a good deal about how it is possible to make one finger's note stand out when playing a chord. Somehow that hammer had to be given more velocity. But it all happens so fast, and is so hidden in psychology, that it is hard to get a handle on it). Anyway, I will again say that I think a mechanical devise, with a system of accelerating levers activated by a weight, and with the mass and placement (leverage advantage) of the weight being variable, would be a great contribution to study of any number of things to do with pianos. Regards, Fred Sturm University of New Mexico fssturm at unm.edu -------------- next part -------------- An HTML attachment was scrubbed... URL: https://www.moypiano.com/ptg/caut.php/attachments/20070904/ae84b132/attachment.html
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