daxwc wrote:FWG:
If the mechanism creates the force to activate the flail arm then i want to know how all those forces also reconcile themselves with the RBGS. I know how gravity acts on the RB when stationary with out CF/CP and it would seem logical to assume that would be the same in a rotating system but my curiosity is whether the pivots within the RBGS share the same properties once in motion. If we are using the RB to extend forces then we have to study the force properties of the RBGS and ignore the traditional "balanced weight" line of reasoning.
Exactly where I am at Crazy Dave.
One thing we haven’t talked about Fletcher (but maybe you already addressed) is CF is going to pull the left side slider out first. This is due to the resistance on the right hand slider having to push the wheel, which in turn will cause counter torque.
I am happy with the RBGS as a means of providing a balanced system and have no issue with any of the thought process with that, the artificial horizon or any of the connection currently theoretical between the inner and outer wheels.
I am finally happy with the fact that the the flail is a balance mass that only rotates because of the rack gear allows the mass to seek a larger radius and that force is translated through the flail to the out wheel. For a while i could not get around my thoughts that flail was supposed to move freely and now( i think) i get the idea there.
My only thoughts are as stated from my simple mind and possible misunderstanding.
The RB allows ballanced weight on the outer pivot point regardless of the
lever length and placement of that
lever attached to that pivot so long as both are equal mass from side to side. But what we are talking about there is newtonian weight in a non accelerated refereance frame. Int he accelerated fram we are harnessing a "force" to be transmitted to the outer wheel through the flail. This force comes from the fact that the flail mech is having its mass accelerated out radialy. I am notconcerned with the force the mech puts on the RBGS by pulling its pivot out so much as the "effective" weight of the mass of the mech that is now in an accelerated reference frame.
I knwo that we can have two mechs and that its balanced at rest no matter the orientation of the mech on the rack in regards to distance. But the "force" that is being created has to come from the mass being activated and i think that during this activation the translation of force into RKE to push the outer wheel reults in a reduced newtonian concept of weight on the RBGS and counter torque comes from the opposite mech.
The RBGS is a wonderful idea to keep orientation and balance within a design, im not sure as a way of also transmitting force through displacement of a mech attached that is stays balanced.
Crazy Dave
Si mobile in circumferentia circuli feratur ea celeritate, quam acquirit cadendo ex
altitudine, quae sit quartae parti diameter aequalis ; habebit vim centrifugam suae
gravitati aequalem.
