To all who responded Thank you.
Yes some of it is still unclear! so lets start with this:
Force has the potential to move a mass. If the force does move the mass, that mass in motion can be described in terms of kinetic energy (1/2m * v^2). While the mass is resting having a force attract it (or pushing on it) there only exists the potential for energy. That potential could only be defined in terms of how far it would move and how fast (as I see it) if the force were permitted to move it.
Correct me if I am wrong.
Gasoline, water behind a dam, holding a bowling ball over an ingrown toe nail, is called either potential force or just force.
If I burn the gasoline in an engine,release the water, drop the ball, It is now deemed energy or kinetic energy.
If I drop the ball a force called gravity (having potential converts it into kinetic energy hence returning to a force when it lands on my toe. Inertia had to be overcome to start the fall and then arrested/canceled as it lands on my foot
Back to the gasoline internal combustion for a moment. The gasoline/air mixture is flashed above its kindling point and explodes. it can push the piston down, so by these standards it is not energy but force. It is not kinetic energy until the piston is in travel and even then it is not either as it is now the piston that carries the kinetic energy.The expanding gases above it are now force.
A pendulum started from a horizontal position will start downward by a force called gravity, as it falls it gains kinetic energy and inertia, resisting any decrease in motion. Gravity although pushing on it constantly creating an increase in kinetic energy via velocity(squared) is still deemed a force and not energy.
We call gravity a conservative force, yet when it causes a mass to fall (which it never seems to have a problem doing) it becomes potential force which creates energy in the falling object. How can it be conservative and obviously potential at the same time???
Now, right or wrong, and please correct me if I am wrong. How does this play on words help us solve the dilemma of pursuing the re-discovery of Bessler's secret or proving a gravity wheel is possible.
One more thing, do the weights gain force from swinging or energy? If I go by the above definitions they gain energy. They lose it at their apex. At this point a conservative force some how becomes a potential force creating more energy! If they loose it and then retrieve it, is this gaining?
No offense meant I appreciate the input, but those of you who remember Jonathan (one very smart boy) had better luck with his plastic version of Tinker Toys. I cannot recall the name, K-nect or something like that.
It is my opinion: Rather than waste time debating all this, get away from the computer and head for the workshop. If you do not have the resources then ask for help. Sure it means sharing your plan, but agreements can be made. With this lesson I now believe I will very likely become a "lurker" except for post aimed at me, and spend more time making shavings.
If you think Centrifugal is the way to go then disconnect the centripetal and let the weights fly, remember though you need a potential force to do so. It does not look like it will be gravity being conservative, you must first get them up from their keel point and in motion. You have to lift a magnet before you can defy gravity even with another conservative force. Seems like doing it with a non-magnetized static mass will even be more fun.
And to Jim I say: my machinist book is in the book case, I very rarely ever take it down. If I need to know something all I have to do is make a statement referring to it on this forum.
Thank you for your patience and indulgence.
Ralph
