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Proud Papa
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************************** And there you have it. 8) Man, I love this site! :D |
Always great when phillygolf fires up the old computer :D
Feels like old times \:D/ and Leo is becoming ... The Man. =D> |
Is the Angled Line Delivery Path the red-headed step child here or what?
Don't let this post "die off like the rest"... Please continue discussing this wonderful post .... Crack..Crack..Crack ...He's gonna hatch soon!!! Also lets cover All the delivery paths, delivery lines, triggers, releases and their relationships to one another.... And Master Yoda...stay right here...Don't go back into meditation mode Stay with us on this!!! Skywalker |
Release And Trigger Delay On The Angled Line Delivery Path
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Oh, and don't worry, Annikan... I'm not going anywhere! |
I'm Lovin' It (McDonalds)
What a bubbly atmostphere! Absolutely fantastic! Lets make this "Release for Dummies" thread, "Thread of the Month" (I just made that up).
============================================== Now, Mike O said he has a pretty simple answer to my question about Snap Release / Trigger Delay, but was going to keep quiet to see how things pan out. I wonder if his response is the same as Yoda's. Will the real Mike O please stand up :?: ============================================== In fact Mike and I has had some very interesting (probably more interesting to me than him since he knows pretty much everything already) discussions relating to Release via PMs. How selfish of me for not sharing this to the public. Lets do this bit by bit. Starting from no particular place, lets look at 6-F-0 where Homer says "the Clubhead is not picking up speed during the Overtaking (Release) Interval, either when Hitting or Swinging". Now we seem to have a direct contradiction in 8-9, where Homer says, "Release - ...the period of Clubhead Acceleration". How can we reconcile the above? I'll be back. |
...I'm gonna have to come back to this and read it again...too much info. for now to put it all together in one clear picture.
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Re: I'm Lovin' It (McDonalds)
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Here's a bit of trivia for you guys. In the Endless Belt Effect model shown in 2-K#6, is Clubhead Speed increasing (i.e. accelerating) during the curved portion of the belt as it goes round the pulley (labelled as Radial Travel on diagram)? |
Their is a huge difference between Arc Velocity,Arc Acceleration, Angular Velocity and Angular Acceleration....So I don't think Homer was contridicting himself...
Remember Acceleration is a CHANGE in Distance divided by a CHANGE In Time.... Arc Velocity which is the measure of the Circumference of the Arc from one point to another...usually measured in radians or degrees of travel.. Arc Acceleration is alpha times the radiusmeasured in radians or degrees Angular Velocity(omega x's the radius) is the measure of Angular Velocity around the Center usually measured in radians per second Angular Acceleration is (alpha= final omega - initial omega divided by time) I believe measured in radians per second squared. I didn't have my Biomechanics text in front of me...If there is an error in the formulas or units I will edit in the morning when I get to the University. The chick is gonna hatch soon..Yoda keep the light on!!!! Keep us warm.... Thanks Annikan |
Velocity
Velocity= Distance divided by Time
Acceleration= Distance divided by Time squared Endless Belt... imagine ducks going around on a shooting gallery. When the duck turns the corner... Zip, there he goes. |
Another Peck at the Eggshell
The more delayed the release, the smaller the pulley, the faster the right elbow has to straighten. Right forearm paddlewheel motion (swingers), action (hitters).
Bagger |
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