As a bowler, there are several things you need to comprehend and take care of to perform better.
Selecting bowling equipment and accessories that specifically match your requirements can take painstakingly long. Let’s not forget the countless hours you invest in perfecting your bowling skills.
Shop Bowling Ball Brands. Shop All Balls Motiv Storm Hammer Ebonite Track. Brunswick DV8 Roto Grip Columbia 300 900 Global See More Brands. AMF Bowling.com Elite. KR Strikeforce OnTheBallBowling Radical. Your search for the best bowling ball on the market will turn up a litany of different bowling balls with a wide array of different perks. If you go into your search for the best bowling ball out there without doing your research, you’re going to be overwhelmed by the choices presented to you in the marketplace. United States Bowling Congress 621 Six Flags Drive, Arlington, Texas 76011 800-514-BOWL 621 Six Flags Drive, Arlington, Texas 76011 800-514-BOWL. Your best bet to get info on it would be to contact Brunswick send them a photo of the ball, the Logos,serial number etc. Right handed Stroker, high track,about 13 degree axis tilt. PAP is located 5 9/16” over 1 3/4” up.Speed ave. About 14 mph at the pins. Medium rev’s.High Game 300, High series 798.
Despite having a lot on your plate already, do you need to learn about the best bowling ball layouts too? Yes, you do!
A layout is a position or orientation of a weight block relative to your bowling release.
The drilling layout of a ball plays an instrumental role in determining the motion of a bowling ball. It is directly responsible for reducing or magnifying the length and hook potential of a ball.
Two balls that boast the same layout will play out differently for two similar speed players. This is because of a plethora of factors including varying rev rates, axis rotations, and axis tilts.
So to find the ideal breakpoint shape for you, you will need to learn how certain ball layouts can benefit your game.
In a nutshell, the layout determines the motion shape of a ball and its hook potential. Drilling the ball in an area that suits your bowling style can help you get more pin-carry action on the ball and thus, improve your scores.
Today, let’s discuss some of the best bowling ball layouts.
5 Best Bowling Ball Layouts
1. The Arcing Layout
Primarily prevalent on most house shots, the arcing layout is also popularly referred to as the 90-degree layout.
Bowlers who style their game on playing the track area on the bowling lane typically go for this layout. It is also favored by those looking to play between the 13 and 8 board at the arrows.
Diving straight to the point, the arcing layout can be achieved with the pin placed 4.5 inches from the PAP (positive axis point). If you are working with a symmetrical ball, ensure that the pin angles towards your thumb with the CG (center of gravity) aligned to the pin.
Asymmetrical ball owners should focus on getting the mass bias aligned with the pin; without deviation, the pin should be located below your thumb.
2. The Early Rolling Layout
This layout is effective at negating the effects of oily lane conditions and lengthy oil patterns. It does a tremendous job of breaking open a shot on an evenly distributed oil pattern.
In most cases, reactive resin and particle proactive balls are given the treatment of the early rolling layout.
To get this layout right, get your layout pin 4 and a half inches from the PAP. Have the mass and center of gravity angled at 35 to 65 degrees. The angle must be chosen as per how early you want your ball to roll.
Generally speaking, the distance between the mass and the PAP determines how early your ball will roll. The closer the distance, the sooner the roll will take place.
Only seasoned players can play with this ball layout expertly.
3. The Flip Layout
If you are looking to play the lane more on the inside, consider the flip layout.
Usually applied on balls with reactive coverstocks, a flip layout excels at lanes with dry back ends. However, professional bowlers avoid using it when they face lanes spread with fresh oil.
To get the flip layout right, have the pin 4 and a half inches from the PAP and the center of gravity. The mass bias should be aligned with the pin and be located near the thumb finger hole.
If you want to increase the distance between the pin and the finger holes, do so at your convenience. The moving period of the ball before its flip is further extended as the distance grows longer.
4. The Pin-Up Layout
The pin-up layout facilitates an angled entry to the pocket and is usually useful for bowlers with high revolutions but slow ball speed. This layout provides a more defined, sharper hook instead of a total hook.
Bowlers bowling on lightly-oiled lane conditions and shorter length patterns usually prefer using this layout on their balls.
If you get your pin close to the PAP on your pin-up layout, you can expect your ball to react harder and quicker to friction.
If your layout has plenty of distance between the pin and the mid-line, the ball will feature a more defined breakpoint to friction. However, the reaction will not be as angular.
5. The Pin-Down Layout
The pin-down layout does a phenomenal job of encouraging a total hook of the ball. This type of layout is usually preferred by bowlers who can generate high ball speed but low revolutions on the ball.
Since this layout promotes a more gradual hook, it excels in heavily-oiled conditions and longer length patterns.
The pin-down layout provides a controlled, sustainable break point because it reacts slower and smoother to friction.
The placement of the pin on the pin-down layout determines the reaction of the ball. If the pin is placed near the PAP, your ball will have a smooth and swift reaction to friction.
A layout where there is considerable distance between the pin and the mid-line will feature a smooth arcing reaction.
Layouts should be drilled onto the balls as per the specific delivery style of a bowler. It is done to help a bowler have complete control over the reaction of the ball and to enable him to bowl consistently into the pocket.
In a bid to help bowlers quickly achieve their desired ball motion, manufacturers of different bowling balls often provide detailed bowling ball layout guides for their products. Install miniconda docker. If you aren’t confident with identifying a suitable layout, head to your pro shop and express your concerns with an expert.
This is my personal cheat sheet to bowling ball specifications.
Every ball made these days is pretty complicated so understanding these specs (even at a very basic level) will go a long way to improving your understanding of ball motion and the potential a ball has to improve your arsenal.
For starters their are two different types of balls: symmetric and asymmetric.
Symmetric vs Asymmetric Bowling Balls
Symmetric balls tend to have low differential whereas asymmetric balls tend to have high differential – the difference between the maximum RG and minimum RG of a bowling ball.
When a bowling ball’s differential is higher the ball has the potential for more flare.
Although any ball with a high differential has the potential for maximum flare on a bowling lane any random asymmetrical ball in your bag will usually flare more than the random symmetrical ball because they naturally have higher differential values as a rule of thumb.
Simply put – Asymmetric bowling balls will flare more resulting in a stronger skid/flip ball reaction – frequently this means a stronger back-end with a comparatively weaker mid-lane read.
Read more technical info here:
What the Heck is RG and Why Should I Care?
Bowling Ball Look
Every bowling ball has at least two axes.
The “X-axis” is commonly known as the the low RG axis of a bowling ball. This axis travels through the core from the top of to the bottom with the pin being the top of the ball.
The “Y-axis” on the other hand is commonly known as the high RG axis of a bowling ball which is exactly 90-degrees offset the X-axis.
In a symmetrical ball the y-axis is exactly the same all the way around the ball just as the equator of earth is the same all the way around the planet.
In an asymmetrical ball there is actually a single point on this equator line that is called the preferred spin access (PSA) and is marked as a specific point 90-degrees off the pin (or top of the ball).
This PSA access is sometimes referred to as the z-axis because it’s the only access point that is offset the x-axis that remains the same on both sides.
The X-axis follows the most stable and preferred rolling axis of the ball. It travels through the pin to the opposite side of the ball.
The Y-axis would be perpendicular to the X-axis and although it would be relatively stable it wouldn’t be the preferred spinning axis of the ball. With friction the ball would want to migrate to a more stable rolling axis, ultimately the X-axis which rolls perfectly around the pin.
In an asymmetrical ball the main pin is also paired with a second marking min called either the PSA Indicator Pin or the Mass Bias (both names are interchangeable and mean the same thing).
In an asymmetrical ball this is the Preferred Spin axis (not the X-axis as it is in symmetrical balls).
Asymmetrical balls will migrate or flare towards the PSA axis as it is preferred.
In a symmetrical ball the thumb hole will be the preferred spin axis (PSA) although it will be a weak PSA compared to the PSAs in asymmetrical balls.
In symmetrical balls the Pin-to-PAP distance is the largest determinate for ball reaction aside from coverstock.
A 3.375″ Pin-to-PAP distance will yield the strongest ball reaction because this will force the ball off the hand into the most unstable ball roll possible for the symmetric core. This high level of instability results in maximum track flare which is why the ball will have the strongest reaction (change of direction).
Pin-to-PAP distances that are greater than this will read the lane progressively later (and less aggressively) as you approach the maximum 6.75″ distance.
Distances that are shorter than 3.375″ will read the lane earlier but to a lesser degree as the distance gets closer to zero.
No matter whether you go high or low with your Pin/PAP distance your ball reaction will be muted because track flare will be lower on both sides of the scale.
Pin/PAP distances that are on the high side will operate in conjunction with the ball’s larger radius of gyration (RG) measurement while distances on the lower side of the scale will operate in conjunction with the ball’s lower RG measurement.
In general high RG balls read the lane late and low RG balls read the lane early.
Each ball has an RG spread which compares the lowest possible radius of gyration (or spin) to it’s highest possible radius. The difference is neatly called the differential and the bigger the differential the more potential the ball has for track flare.
If the Pin-to-PAP distance is exactly at 3.375″ then you can take advantage of the maximum track flare possible on a bowling ball.
If you want the ball to err on the side of reading late then the Pin/PAP distance should be just over 3.75 inches and it should be just under if you want your ball to err on the side of a early read.
If you want a ball to read late but strong then you should choose a ball with a high maximum RG and a wide differential and set your Pin-to-PAP distance to 3.375″.
If you want this same ball to read late but weaker then the 3.375 inch distance should be expanded in the direction of 6.75″.
Conversely a ball the reads early and strong should have a low minimum RG with a large differential and set your Pin-to-PAP distance to 3.375″.
If you want this same ball to read early but weak then the 3.375 inch distance should be shortened in the direction of zero inches.
In general a longer Pin/PAP distance will conserve energy through the heads and mid-lane reserving it for the back end.
This can be helpful for situations where there is burn in the heads or mid-lane. The longer Pin/PAP distance will help the ball skid over the burn area reserving as much energy as possible for the backends.
On the flip side shorter Pin/PAP distances will read earlier leaving less energy available for the backends.
Bowling Ball Serial Number Lookup
On fresh patterns, heavy oil, long conditions, or even super short patterns a shorter Pin/PAP distance can be a great tool for controllable and predictable movement that flattens out a lot on the backend of the lane.
In the middle of the spectrum the strongest layout distance of 3.375 inches is usually conducive to transition games, heavy oil conditions, and generally longer patterns.
How About The Shape of the Curve?
Beyond the RG being small or large, the differential being big or small, and the Pin-to-PAP distance being short or long the shape of the ball’s change in motion can be altered a bit by altering the VAL intersection with the Pin-to-PAP plane.
If the angle that the planes intersects is around 25 degrees then the the direction change of the ball at the break-point will be more abrupt.
How To Read Bowling Ball Serial Numbers
If that angle is 35-40 degrees then the direction change of the ball will be smoother and more continuous (less abrupt or angular).