Cue Power: What is It and What Can It Do for You?
Over the years there has been much conjecture over the importance of cue power for breaking balls or applying english, etc.. Some players have thought that a heavy cue would make them break better. Thank goodness, most players have finally been educated to the reality that a lighter cue is more powerful. A fact that has been repeatedly proven by the Meucci Staff and other players in breaking contests over the years – ever since I first introduced the use of a radar gun at tournaments in the early 90’s.
The simple fact is that a human, male or female, has limited strength and can only move a certain amount of weight so fast; the heavier the weight, the slower the swing. Conversely, the lighter the weight, the faster the swing 최상위파워볼.
It is the speed of the cue, not its mass (weight), that causes the acceleration of the cue ball because of the cue’s compression at the moment of impact as it first tries to overcome the inertia to remain at rest.
The optimum cue weight to accomplish maximum speed and compression before the cue snaps back and sends the cue ball forward is about 18 to 18 3/4 oz. for most men and about 17 to 17 3/4 oz. for most women.
What do I mean when I say compression? I mean that at the moment of impact, with sufficient speed, before the cue ball moves, the first thing that happens is the shaft bends away from it’s spine creating an “S” shaped wave that travels through the cue as the cue is fore-shortened by it’s compression, thus loading energy into the cue.
As the inertia to remain at rest is overcome, the cue ball is projected forward by the power of the player’s arm and swing speed plus an additional kick from the pre-loaded cue, thus equaling cue power.
The more we can compress the shaft from the moment in which the cue ball is impacted until it leaves the tip, the more power you will develop.
You’ve seen the same kind of dynamics in the sport of pole vaulting, tennis and others. It is also applied in golf. Before the extra-whippy fiberglass pole was introduced in pole vaulting, when athletes just used a stiff wooden pole, the world record was just slightly over 15 feet high. Within one year of the introduction of the fiberglass pole, the world record was increased a whopping 20% to 18+ feet. The rest is history.
So then, the question is… how much compression/flexibility should a cue have? If you were to take a solid steel bar with no compression and put a tip on it, you would have a hard time striking the ball with enough force to bank 3 rails. I know this without question, I tested it myself.
On the other hand, when does a cue get so flexible that it over-compresses and does not return to shape until the cue ball is long gone, therefore losing power? With the use of the Myth Destroyer, our new testing robot, we have found that optimum point of compression and we now build it into every Meucci “RED DOT” shaft with 10% additional stiffness to allow for dimensional reduction through years of play. End Result: The most powerful cue in the world with the absolute least amount of effective cue ball deflection!
However, this important feat can not be accomplished by only considering the technology of shaft taper and flexibility. You must also consider joint material, joint style (flat face or piloted), joint size, forearm taper, shallow inlays (as opposed to true spliced points) and solid or 2-piece butts. All these factors must be optimized to obtain maximum cue power.