Changes

57:5.13 While Angona was unable to capture any of the [[solar]] [[mass]], your sun did add to its [[metamorphosing]] [[planetary]] [[family]] some of the [[circulating]] [[space]] [[material]] of the visiting system. Due to the [[intense]] [[gravity]] field of Angona, its tributary planetary family pursued [[orbits]] of considerable distance from the [[Black Hole|dark giant]]; and shortly after the extrusion of the [[solar system]] [[ancestral]] [[mass]] and while Angona was yet in the vicinity of the [[sun]], three of the major planets of the Angona system swung so near to the massive solar system ancestor that its [[gravitational]] pull, augmented by that of the [[sun]], was sufficient to overbalance the gravity grasp of Angona and to permanently detach these three tributaries of the [[celestial]] wanderer.

57:5.13 While Angona was unable to capture any of the [[solar]] [[mass]], your sun did add to its [[metamorphosing]] [[planetary]] [[family]] some of the [[circulating]] [[space]] [[material]] of the visiting system. Due to the [[intense]] [[gravity]] field of Angona, its tributary planetary family pursued [[orbits]] of considerable distance from the [[Black Hole|dark giant]]; and shortly after the extrusion of the [[solar system]] [[ancestral]] [[mass]] and while Angona was yet in the vicinity of the [[sun]], three of the major planets of the Angona system swung so near to the massive solar system ancestor that its [[gravitational]] pull, augmented by that of the [[sun]], was sufficient to overbalance the gravity grasp of Angona and to permanently detach these three tributaries of the [[celestial]] wanderer.

57:5.14 All of the [[solar system]] [[material]] derived from the [[sun]] was originally [[endowed]] with a [[homogeneous]] direction of orbital swing, and had it not been for the intrusion of these three foreign [[space]] bodies, all [[solar system]] [[material]] would still maintain the same direction of [[orbital]] [[Motion|movement]]. As it was, the impact of the three Angona tributaries injected new and foreign [[directional]] [[forces]] into the [[emerging]] [[solar system]] with the resultant [[appearance]] of retrograde [[motion]]. [[Retrograde motion]] in any [[astronomic]] [[system]] is always [[accidental]] and always appears as a result of the collisional impact of foreign [[space]] bodies. Such [[collisions]] may not always produce retrograde motion, but no retrograde ever appears except in a system containing [[masses]] which have [[diverse]] [[origins]].

57:5.14 All of the [[solar system]] [[material]] derived from the [[sun]] was originally [[endowed]] with a [[homogeneous]] direction of orbital swing, and had it not been for the intrusion of these three foreign [[space]] bodies, all [[solar system]] [[material]] would still maintain the same direction of [[orbital]] [[Motion|movement]]. As it was, the impact of the three Angona tributaries injected new and foreign directional [[forces]] into the [[emerging]] [[solar system]] with the resultant [[appearance]] of retrograde [[motion]]. [[Retrograde motion]] in any [[astronomic]] [[system]] is always [[accidental]] and always appears as a result of the collisional impact of foreign [[space]] bodies. Such collisions may not always produce retrograde motion, but no retrograde ever appears except in a system containing [[masses]] which have [[diverse]] [[origins]].

== 57:6. THE SOLAR SYSTEM STAGE—THE PLANET-FORMING ERA ==   

== 57:6. THE SOLAR SYSTEM STAGE—THE PLANET-FORMING ERA ==