6-D-2 Secondly, surprisingly low, sustained acceleration of the Lever Assemblies produces excessive Hand Speed which irresistibly throws the Clubhead into its Release Orbit prematurely (10-19-C).
What do implications does this have on your procedure and the Loading of your Pressure Points?
I think this addition to 2-K Endless Belt vs. The Flail has particular relevance to an understanding of 6-D-2.
Another very inmportant element in the generation of Angular Motion is the Endless Belt Effect (Sketch 2-K #6) which is the Physics of the Delivery Paths (7-23). During the straight line portion of the motion (Line Delivery Path) Linear Motion give the Belt and teh Clubhead identical MPH speed. When the Belt starts around the Pulley (Release) its MPH does not change (Constant Hand Speed) but the Clubhead goes into an Angular Motion and its Surface Speed becomes proportional to its: 1) Radius 2) Belt Speed and 3) Pulley diameter.
So once the Pressure Points in the hands (the Belt) are LOADED . . . that particular load or pressure is sustained (no need to increase necessarily the Pressure Point Pressure) via a Constant Hand Speed. Once the hands encounter the Pulley Portion . . . BAMO Surface Speed (Clubhead) increases with the Hand Speed and Pressure Point Pressure remaining constant.
Hybrid Mode
