| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 1824.1 | Some set up thoughts | MAMIE::FRASER | A.N.D.Y.-Yet Another Dyslexic Noter | Thu May 17 1990 17:17 | 48 |
| Haven't thought about it too deeply, but a couple of things
come to mind straight off:
One apparent variable shouldn't be - if you always tune to
'concert pitch', then string tension is a factor of string
guage, and if you've kept the same guage then that's not the
answer.
We're then left with action, which is a function of (string
guage), neck angle, neck bow, bridge height and trem stiffness.
The string tension is still the same, but the apparent tension
will vary - by that, I mean that the feel will be different,
which is what I _think_ you're asking about?
Setting the neck is easy enough, but not something I'd want to
get into here, so let's accept that it's ok. The easy
adjustments left are bridge height and trem stiffness. Again,
it's easy to check that the trem is clean and horizontal, and
pivots easily - the counterbalance springs are only there to
pull against the string tension.
Bridge height - given a straight (relative) neck, with the
correct amount of bow, then bring the bridge down until the
bass E _just_ rattles when played open, and then back off just
enough to get it clean again. If the bridge/trem has height
adjustable saddles, then bring the treble side down the same
way and then raise it for a clean note.
Hard to describe, but you want the overall bridge height and
individual string saddle adjustments, such that the strings
follow the across neck profile leaving the bridge, with just
enough clearance over the fingerboard to prevent fret rattles.
Small adjustments are the secret here.
The primary given has to be that the neck is correctly set
though, with no warp and a _slight_ bow, which is almost
entirely string guage/truss rod dependant.
Light guages are easier to finger (less apparent tension for a
given action). Power thrashing means greater fingerboard
clearance is required, which of course feel heavier that a
guitar with the same strings set up for delicacy.
FWIW, hope this helps,
Andy
PS, Your mileage may vary.
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| 1824.2 | | RAVEN1::BLAIR | Never met a guitar I didn't like | Fri May 18 1990 14:36 | 11 |
|
I noticed that my strat string tension was a little stiff doing bends.
I have the trem "locked down" on my strat with the trem laying against
the body. I noticed however that I could lessen the spring tension
(but still keep the trem locked down) and the bends were easier. I
suppose what is happening is that the trem is "giving" a little now
on bends where before it wasn't. Kind of a compromise between a
floating and locked down trem. Probably not what you needed to know,
right?
-pat
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| 1824.3 | | TCC::COOPER | MIDI rack puke | Fri May 18 1990 14:50 | 8 |
| I read some place a LONG time ago, that Van Halen screwed beer caps
under his tail peice to lessen the angle his strings took over the saddles.
(obviously, this was long before he started working with Floyd-Dude.
...Not that I would ever speak to you again if you screwed a bud cap under
your tail piece. ;)
jc
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| 1824.4 | Did you really mean increased angle = decreased tension?? | COOKIE::G_HOUSE | 10,000 Lovers | Fri May 18 1990 20:11 | 8 |
| It's always felt to me that when you increase the angle over the bridge
saddles, you increase string tension and when you decrease the angle of
the strings over the saddle it decreases string tension.
It seems most noticable on Les Paul type guitars where you can adjust the
height of the tailpiece to change that angle pretty dramatically.
Greg
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| 1824.5 | Don't confuse me | ZYDECO::MCABEE | Definitely no 'a' | Fri May 18 1990 20:22 | 21 |
| I'm having trouble following this discussion. I understand that the meaning
of a word gets changed over time by popular usage, but the last time I
checked, "action" was a technical term meaning the distance between string
and fret. Has this changed?
I'm also a little unsure about the use of "tension". Technically, tension
means the amount of force pulling on the string. All other things being
constant (same string, same pitch, same scale length, same guitar, etc.),
changing the breaking angle over the saddle has no effect on string tension.
It's theoretically possible to detect a change in the perceived "hardness"
of the string. When the string is fretted, that part of the string between
the saddle and the point where the ball end is tied down will stretch less
if the breaking angle is steep, making the string feel "harder". This is
just because of increased friction between string and saddle. I don't know if
your fingers would detect this slight difference.
If the strings feel harder, I would suspect a slight change in the Action,
due to weather or whatever, or maybe something in the works that's now locked
down tighter than it used to be. ...or maybe your fingers got soft. :^)
Bob
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| 1824.6 | | ZYDECO::MCABEE | Definitely no 'a' | Fri May 18 1990 20:27 | 12 |
| >It's always felt to me that when you increase the angle over the bridge
>saddles, you increase string tension and when you decrease the angle of
>the strings over the saddle it decreases string tension.
>Greg
You replied while I was typing. That sounds consistent with what I was trying
to say (if I understand what you mean by "tension" :^) ). I guess it really
is perceptible.
Bob
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| 1824.7 | ?? | COOKIE::G_HOUSE | 10,000 Lovers | Fri May 18 1990 20:38 | 6 |
| Bob,
I didn't believe it at first either, but I tried it out and it really makes
a tangible difference.
Greg
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| 1824.8 | Yeah, lookit this! | DNEAST::GREVE_STEVE | West down Ventura boulevard... | Tue May 22 1990 17:18 | 53 |
|
Pat, yes.. I've seen the same thing, this week, Greg, me too
sharper angles make more string tension for me... Bob, yep string
tension is as you describe (at least for my non-technical discussion of
this black magic subject)... what I'm really talking about is that
Newton-dudes 3rd law... or the coresponding force that created on my
pinkies when I bend strings... Hee Hee.. I asked a jazz teacher at the
store and he said.. "Bend?? Why would I want to do that, Steve???"
<grin>.. I think he was kidding.. anyways, listen to this:
I talk with this hyper mechanical engineer friend of mine (he's the
smart one in our graduation picture) and he says that every force can
be broken down into components that lie on X, Y and Z axises and that
isoplanar discussions of a guitar trem system would be good enough ( I
think that means x and y axis ).. anyway he started at the springs nad
said and told me that he would guess that that further forward the END
of the bridge (yep, the tiny holes where I insert the strings) the
lower the tension on the strings cos the x force.. would get bigger
pulling against the body and the y force (pulling down on the strings)
would get less. I'll try and text draw what I'm talking about:
String Saddle Force
X=0
--------------------------| |\ Y=Bigtime
| |
| | <|
----//////////////////////--| | |
|
V
AND... Lighter tension would be:
String Saddle Force
X=More
--------------------------| |\ Y=Less
-/ / X
/ / <----|
----///////////////////--/ / | Y
|
V
I tried this by loosening the bridge mounting screws (tilting the
bridge back slightly) and BINGO.. the string tension on my strat got
lighter just like the guy said.... Anyone else ever try this???
ANymore suggestions that might help me move string tension out of the
black magic area and into the physical world??
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| 1824.9 | | ZYDECO::MCABEE | Definitely no 'a' | Fri May 25 1990 10:42 | 30 |
| RE: .8
Steve,
I'm not sure I followed what you were saying about the X,Y components of the
tension, but if you tilted the bridge (saddle) back, then you also lowered
the action slightly, which could account for the softer feel. Tilting back
would also slightly lengthen the effective string length. If you maintain the
same tuning, that would increase the string tension (tuning a string to the
same pitch over a longer distance requires greater tension), but the effect
on how the strings feel would probably be negligible compared to lowering
the action.
The X component of tension in the short section of string behind the saddle
doesn't really have any bearing on the tension in the playing section.
Neither does the Y component. The vector *sum* of these two components equals
the real tension in the string (the force in the strings own axis). Ignoring
the friction between string and saddle (this is reasonable when everything
is stationary), the tension in both sections of the string is the same.
The real issues in how hard the strings feel are 1) how far do you have to
bend the string? and 2) how elastic is the total "system" that holds the
strings in place? If the system "gives" when you bend the string, then
you feel less tension in the bent string. Depending on what part of the
system gives, you might also have to bend it farther to get the same pitch.
It's really amazing what subtle mechanical differences can be felt by the
human hand.
Bob
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| 1824.10 | | DNEAST::GREVE_STEVE | West down Ventura boulevard... | Fri May 25 1990 16:13 | 21 |
|
Thanks, Bob.. ummmm.. yeah it does seem (I've tried it on a couple
of guitars now) that the more the y force is decreased (downward force
on strings.. the easier to play the instrument... I like what you had
to say about flexibability.. but I've got to say that I've played to
"like" (at least as far as I could see) Strats and the difference in
action could be like night and day.....
As far as tilting the bridge saddle back, that does lengthen the
string.. but then I ususally have to re intonate, whcih would move the
string length back to whjat ever it was when I started.
So waht about it, fellers?? What do you do to make yer strings
"slacker"??
Steve
(pie are not square, pie are round!)
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| 1824.11 | Only half way joking | COOKIE::G_HOUSE | No, I'm very, very shy. | Fri May 25 1990 17:17 | 5 |
| > So waht about it, fellers?? What do you do to make yer strings
> "slacker"??
Use the trick Hendrix and Van Halen did a lot...Tune down a half step.
|
| 1824.12 | Please don't beat me up! | CSC32::H_SO | Pizza dude's got 30 seconds! | Fri May 25 1990 21:08 | 13 |
|
RE; < So what about it, fellers?? What do you do to make yer strings
< "slacker"??
Go down to your nearest music store, trade your Fender in for a
Les Paul, you whimp! ;^> x 10 Mega Zillion!
Seriously, get a lighter gauge strings. Usually .009 at high E usually
doesn't offer me enough tension, ahem, but for some people, ahem, it's,
ahem, just perfect, ahem.
J-Dot
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| 1824.13 | For what it's worth... | WOODRO::FRASER | A.N.D.Y.-Yet Another Dyslexic Noter | Fri May 25 1990 21:41 | 20 |
| > RE; < So what about it, fellers?? What do you do to make yer strings
< "slacker"??
Re-read .1
Seriously, if you keep the gauge the same and set the action as
described, such that the bridge curvature follows the
fingerboard curvature _accurately_, then it will play as light
as the gauge of the strings.
The angle of dangle behind the bridge does not affect the feel
of the strings on the fingerboard, it may affect trem
stiffness.
Andy
(26 years of playing/building/repairing/aligning solids, semis
and acoustics.)
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| 1824.14 | | HPSRAD::JWILLIAMS | | Fri Jun 15 1990 14:16 | 18 |
| There are two things I can think of that will effect string tension
during bends:
1) Scale length. The longer the scale, the tighter the strings.
You an adjust this by tuning down or using a lighter guage.
2) Bend displacement. The further you have to bend to get the desired
note, the greater the string tension component is applied to your
fingertip. This is caused by having extra string on either side of the
bridge or nut.
There isn't much you can do about this. The angle of the bridge might
effect it by introducing more friction between the string and the
saddle, causing less string to be pulled from the other side of the
bridge during bends.
John.
|