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Post by dubiousgolfer on Apr 2, 2020 10:29:49 GMT -5
Dr Mann While I was reading your article by Brandel Chamblee (again) , I saw these images of Stenson For Stenson's clubshaft to be 'On Plane' will his degree and rate of left arm pitching be proportional to the rate of left arm supination and the 'releasing' PA2 angle until PA3 angle is reached (ie. P6.5) as shown in images 1,2 and 3 (during the slow phase of left arm supination)? Will there be more left arm 'rapid' pitching required, dependent on the 'degree/rotational speed' for the release of PA3 (with a constant PA3 angle up to P7)? DG
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Post by imperfectgolfer on Apr 2, 2020 10:47:15 GMT -5
DG,
I have never previously seen anybody using the phrase "left arm pitching". What do you mean by this phrase?
Jeff.
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Post by dubiousgolfer on Apr 2, 2020 10:55:58 GMT -5
DG, I have never previously seen anybody using the phrase "left arm pitching". What do you mean by this phrase? Jeff. Apologies as I may have used the wrong terminology but if you look at the bottom 4 images you can see Stenson's left arm becomes more vertical as he approaches P7. DG I must have remembered the term from this below.
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Post by imperfectgolfer on Apr 2, 2020 11:58:22 GMT -5
Now that I understand what you mean by "left arm pitching", my rough answer is "yes". Although I don't think that one can create a specific mathematical formula because of the variance in the degree of PA#2 release per unit time, I can readily imagine that the amount of left forearm supination required per unit time between P6 and P6.5 needed to keep the clubshaft on-plane will depend on the amount of left arm pitching happening per unit time during that same time period.
Jeff.
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Post by dubiousgolfer on Apr 2, 2020 13:13:55 GMT -5
Many thanks Dr Mann
DG
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