Changes

41:8.3 In large [[suns]]—small circular [[nebulae]]—when hydrogen is exhausted and [[gravity]] contraction ensues, if such a [[body]] is not sufficiently [[opaque]] to retain the internal [[pressure]] of [[support]] for the outer [[gas]] regions, then a sudden collapse occurs. The [[gravity]]-[[electric]] [[changes]] give origin to vast [[quantities]] of tiny [[particles]] devoid of [[electric]] [[potential]], and such [[particles]] readily escape from the [http://en.wikipedia.org/wiki/Sun#Core solar interior], thus bringing about the collapse of a gigantic sun within a few days. It was such an emigration of these "runaway [[particles]]" that occasioned the collapse of the giant [http://en.wikipedia.org/wiki/Nova nova] of the [http://en.wikipedia.org/wiki/Andromeda_%28constellation%29 Andromeda] [[nebula]] about fifty years ago. This vast [[stellar]] body collapsed in forty minutes of [[Urantia]] time.

41:8.3 In large [[suns]]—small circular [[nebulae]]—when hydrogen is exhausted and [[gravity]] contraction ensues, if such a [[body]] is not sufficiently [[opaque]] to retain the internal [[pressure]] of [[support]] for the outer [[gas]] regions, then a sudden collapse occurs. The [[gravity]]-[[electric]] [[changes]] give origin to vast [[quantities]] of tiny [[particles]] devoid of [[electric]] [[potential]], and such [[particles]] readily escape from the [http://en.wikipedia.org/wiki/Sun#Core solar interior], thus bringing about the collapse of a gigantic sun within a few days. It was such an emigration of these "runaway [[particles]]" that occasioned the collapse of the giant [http://en.wikipedia.org/wiki/Nova nova] of the [http://en.wikipedia.org/wiki/Andromeda_%28constellation%29 Andromeda] [[nebula]] about fifty years ago. This vast [[stellar]] body collapsed in forty minutes of [[Urantia]] time.

41:8.4 As a rule, the vast extrusion of [[matter]] [[continues]] to exist about the residual cooling [[sun]] as extensive clouds of [[nebula]]r [[gases]]. And all this explains the [[origin]] of many types of irregular [[nebulae]], such as the http://en.wikipedia.org/wiki/Crab_nebula Crab nebula], which had its [[origin]] about nine hundred years ago, and which still exhibits the [[mother]] [[sphere]] as a lone star near the [[center]] of this irregular nebular [[mass]].

41:8.4 As a rule, the vast extrusion of [[matter]] [[continues]] to exist about the residual cooling [[sun]] as extensive clouds of [[nebula]]r [[gases]]. And all this explains the [[origin]] of many types of irregular [[nebulae]], such as the [http://en.wikipedia.org/wiki/Crab_nebula Crab nebula], which had its [[origin]] about nine hundred years ago, and which still exhibits the [[mother]] [[sphere]] as a lone star near the [[center]] of this irregular nebular [[mass]].

==41:9. SUN STABILITY==  

==41:9. SUN STABILITY==