Should i max rolling spin

Another example of this from testing of a prototype cuttlefishcues carbon fiber shaft showing how a stiff shaft does not deflect away from the CB as much, and returns to the CB quickly, risking a double hit see the shots with the black shaft in the video. Sidespin english is used on the majority of shots to either control how the cueball comes off a cushion, or to reduce object ball throw with outside english. This is governed nearly totally by tip offset, ie, how far from center tip contact is made.

Cue speed and weight have a very slight effect. The factors that govern absolute spin rate, as with force follow and draw shots, have been mentioned tip offset and cue speed , but just to add this. For any particular player, there is an optimal cue weight, one that produces the most spin, for each particular offset.

No one cue will work equally well at all offsets for that player. But the good news is that over a rather broad range of cue weights, there is very little difference between them as far as cueball response.

Nevertheless, as a general rule, a heavier cue is more efficient at centerball, while a lighter one is more efficient away from centerball in theory. I would think that harder tips would be more efficient than softer ones, but some tests done by another poster here, Mike Page, suggest that this might not be the case, that they may be about the same. The top of the ball moves forward, the bottom backward.

This creates a strong arch in the trajectory. An underspin ball spins in the opposite direction, the bottom of the ball moves forward and the top backward. This causes a flat trajectory. Sidespin can refer to a ball spinning around an axis that runs top to bottom or front to back.

They have very different effects. A sidespin ball rotating around a vertical axis will curve in flight. While one rotating around a front to back axis will fly relatively straight, but will sharply bounce sideways on the table. Most shots have varying degrees of each spin component. We compensate for that with our stroke and our racket angle. The topspin ball will rise upon contact with the rubber. Note that the direction of the spin reverses upon contact with the rubber surface.

Each shot has an optimal contact point on the balls surface. Most golf balls range between 50 and in compression. A good way to understand compression is to consider a rubber band. Imagine wrapping a rubber band around three of your fingers.

Now imagine wrapping it around the same 3 fingers, only this time as you wrap it stretch it so you can wrap it around three times.

Obviously, you will feel a difference in the pressure on your fingers. That is compression. You are using the same amount of material and it is occupying the same amount of space, yet it is producing different pressures. That pressure is the result of compression and is exactly how compression works inside a golf ball. Lower compression balls tend to be softer and compress more to create more distance. Higher compression balls offer more control and are used by better players who can produce faster swing speeds to compress the ball.

Whilst other factors such as how many you lose and price will come into play, the different construction of golf balls means that technically you can get one to optimise your performance. Several golf ball manufacturers run golf ball fitting sessions at local golf clubs or their fitting centres, so we would recommend getting measured up or advice from a golf professional if you can.

Alternatively try a few brands out that you like on the course and keep a track of which gives you the best combination of distance, control and feel on the greens. Then play with that make of ball all the time, as changing brands every time you play will not help your game. The reason for golf balls having dimples is to do with drag.

The moment a ball is struck, it is slowing down. Well-hit golf shots propel the ball at about mph through the air, and the moisture and pressure in the air get right to work and slow the ball down. The less area you have on the cover of a golf ball, the less area there is to be affected by the air. The dimples on the golf ball affect the air molecules that affect the ball's flight.

The dimples cause the molecules to roll and bounce around which creates turbulence in the air on the surface of the ball. A smooth golf ball would travel far shorter as its area is more susceptible to the force of air pressure. In the early years of golf, smooth feather filled balls were used, and it wasn't until they got scuffed and misshaped that players discovered that a non-smooth ball would travel further.

There is no doubting that lake balls seem an attractive investment, but are they just as good as new? Well, the answer is no. Tests into the effect that water had on balls resting at the bottom of lakes were carried out and they discovered that balls that have spent time in water travel less than new, or simply dry golf balls.

Balls that had spent 8 days in water produced drives six yards less than the benchmark ball. Balls that had spent 3 months submerged in water travelled 12 yards less, and balls kept in water for 6 months went 15 yards less.

This may sound like a sizeable difference, however for the average golfer a lake ball can be a very good investment.

Considering the price of new golf balls in the market today, buying lake balls is a cheap way to enjoy the game. The chance to pay a lot less for some of the best balls around is one that many golfers take and don't regret. Many lake-ball companies re-cover balls in a shiny gloss that makes them appear new. This cover will wear and the ball may discolour slightly, but will not affect the balls flight or roll.

X-outs are factory overruns or balls with cosmetic blemishes, but they are also brand-new as opposed to the buckets of used or lake balls in some pro-shops. The ones with corporate logos or business names on them are the best of the bunch as they should be new balls that should not have any blemishes.

X-out balls sell for considerably less than top-of-the-line models.