![]() if had I set the wind to 3.3 mph I suspect the difference in values between 90 and 180-degree shots would be 66% less thus instead of instead of a 1.5 ring difference it would be only half a ring difference.notice that the MIN values between 90 and 180-degree screenshots are not quite as much (closer to 1 - BUT THIS STILL MAKES A HUGE DIFFERENCE IN PLAY).COMPARE MIN VALUES (this is where the club is about to change to a wood).NOTICE THERE IS AS MUCH AS A 1.5 RING DIFFERENCE between a 90-degree and 180-degree shot.COMPARE THE MAX VALUES BETWEEN EACH SCREENSHOT (these are the suggested ring values to adjust shot).What You Should Know When Looking At This Image Collage: PROOF (screenshots from GC notebook io's app using power 2 ball in 10mph wind): obviously, an incremental increase in adjustment is needed as wind direction grows closer to being a crosswind or head/tailwind.If Multiplier Is Calibrated To Be Most Accurate With A DIAGONAL Wind direction MORE HEAD/TAILWIND = LESS ADJUSTMENT NEEDED.MORE CROSSWIND = ADDITIONAL ADJUSTMENT IS NEEDED.If Multiplier Is Calibrated To Be Most Accurate With A 180-Degree HEAD/TAILWIND : MORE HEAD/TAILWIND = ADDITIONAL ADJUSTMENT IS NEEDED.If Multiplier Is Calibrated To Be Most Accurate With A 90-Degree CROSSWIND However i think this has less to do with the multiplier and more to do with the wind direction which in turn affects the accuracy of the multiplier and is only obviously noticeable in higher winds I just started hitting up tour 9 and pretty successfully unless im using a marlin in higher winds 10+ where i need to adjust 12-15 rings i have noticed that the end result isnt as expected. the higher the wind, the more we need to adjust wind rings.
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