I find symmetrically designed bows more difficult to tiller because since we pull the string farther from center on them, they stubbornly tip in the hand during the early draw. This is assuming we pull the string on the tree from the spot we'll pull it while actually shooting it... which I think is imperative.
They too can be dynamically balanced at full draw, with a tillering tree that reveals such balance, or imbalance, but such bows require a greater shift between static(where it balances prior to pulling on the string) and dynamic balance to be made when they're drawn. Personally, I don't like the feel of that in my hand while I'm drawing the bow. The farther from center we draw a bow, the greater the shift that must be acounted for. That's as much about geometry as it is physics.
Asymmetrical bows on the other hand, can be made to put the bow's center closer to the string hand fulcrum, and in fact, in some instances, we can design the bow so that it's drawn exactly from its center, requiring NO shift whatsoever between static and dynamic balance. These are the easiest and most predictable bows to tiller and the sweetest to draw and shoot.
When folks ask about, or offer advice about, predetermined tiller measurements they're usually making inherently wrongful guesses and assumptions about one of the most important aspects of bowmaking, imo... limb harmony, timing, equal limb strain, balance... whatever you want to call it. Sure, it's easier to offer and take such generic advice... 'tiller them equal at brace', or 'tiller them 1/8" positive'... but is it RIGHT? For him? For that bow? We honestly have no way of knowing. We haven't seen the stave, and don't even know if he shoots split finger or three under... prefers pressure at the heel of the grip or the throat...
I use no such measurements as beacons during tillering. I design them relative to my holds on bow and string so there is a minimal shift, allowing me to balance the limb's strengths relative to those things early in the tillering process, and continue tillering them with that balance as my guide as to which limb is acting stronger or weaker, making adjustments as needed. When I'm done and it comes off the tree, I know it's balanced. I know how it wants held. I know how it will look and feel throughout the draw and at full draw in my hands. I know how it will act toward me and the arrow before I draw it the first time. I know exactly where to put the nock point for good arrow flight. These things are really quite predictable. What I DON'T know is what the exact tiller measurements are. They're irrelevent. In the end, the side profile, or 'tiller difference between top and bottom limbs' is whatever it is... always a RESULT of my efforts, never a guide or stencil.
We're making wooden bows, with countless irregularities, visible and invisible differences between the limbs that can be quite considerable. Common sense should tell us not to expect a single, predetermined tiller measurement to best suit them. And then to offer that advice to someone else, with shooting idioms different than our own? I don't even know how my own bows are going to end up, how could I possibly begin tell you how yours will?
I know... not the answer you're looking for, right?
That being said, this is not bad advice from Hamish, "When I use same length limbs and the above approach the result is usually
negative tillered, ie the lower limb is slightly more than the top. Conversely if I use a top limb longer design, it usually ends up positive tillered. Its really only useful if the stave is extremely straight and even, or it is a laminated or board bow, otherwise character can easily make the measurements at brace height useless."
