Difference between revisions of "57:4 Tertiary and Quartan Stages"
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[[File:lighterstill.jpg]][[File:The_eye_of_all_ur60.jpg|right|frame]] | [[File:lighterstill.jpg]][[File:The_eye_of_all_ur60.jpg|right|frame]] | ||
| − | 57:4.1 The primary [[stage]] of a [[nebula]] is [[circular]]; the secondary, spiral; the tertiary stage is that of the first [[sun]] [[dispersion]], while the quartan [[embraces]] the second and last [[cycle]] of [[sun]] dispersion, with the [[mother]] [[nucleus]] ending either as a [ | + | 57:4.1 The primary [[stage]] of a [[nebula]] is [[circular]]; the secondary, spiral; the tertiary stage is that of the first [[sun]] [[dispersion]], while the quartan [[embraces]] the second and last [[cycle]] of [[sun]] dispersion, with the [[mother]] [[nucleus]] ending either as a [https://en.wikipedia.org/wiki/Globular_cluster globular cluster] or as a [[solitary]] sun [[functioning]] as the [[center]] of a terminal [[solar system]].[https://en.wikipedia.org/wiki/Nebular_hypothesis] |
| − | 57:4.2 75,000,000,000 years ago this [[nebula]] had ''attained'' the height of its [[sun]]-[[family]] [[stage]]. This was the [[apex]] of the first period of sun losses. The [[majority]] of these suns have since [[possessed]] themselves of extensive [[Solar System|systems]] of [[planets]], [[satellites]], dark islands, [[comets]], [[meteors]], and [ | + | 57:4.2 75,000,000,000 years ago this [[nebula]] had ''attained'' the height of its [[sun]]-[[family]] [[stage]]. This was the [[apex]] of the first period of sun losses. The [[majority]] of these suns have since [[possessed]] themselves of extensive [[Solar System|systems]] of [[planets]], [[satellites]], dark islands, [[comets]], [[meteors]], and [https://en.wikipedia.org/wiki/Interplanetary_dust_cloud cosmic dust clouds]. |
57:4.3 50,000,000,000 years ago this first period of [[sun]] [[dispersion]] was completed; the [[nebula]] was fast finishing its tertiary [[cycle]] of [[existence]], during which it gave [[origin]] to 876,926 [[sun systems]]. | 57:4.3 50,000,000,000 years ago this first period of [[sun]] [[dispersion]] was completed; the [[nebula]] was fast finishing its tertiary [[cycle]] of [[existence]], during which it gave [[origin]] to 876,926 [[sun systems]]. | ||
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57:4.4 25,000,000,000 years ago [[witnessed]] the completion of the tertiary [[cycle]] of [[nebular]] life and brought about the [[organization]] and [[relative]] [[stabilization]] of the far-flung [[starry]] systems derived from this [[parent]] [[nebula]]. But the [[process]] of [[physical]] contraction and increased [[heat]] production continued in the [[central]] [[mass]] of the nebular remnant. | 57:4.4 25,000,000,000 years ago [[witnessed]] the completion of the tertiary [[cycle]] of [[nebular]] life and brought about the [[organization]] and [[relative]] [[stabilization]] of the far-flung [[starry]] systems derived from this [[parent]] [[nebula]]. But the [[process]] of [[physical]] contraction and increased [[heat]] production continued in the [[central]] [[mass]] of the nebular remnant. | ||
| − | 57:4.5 10,000,000,000 years ago the quartan cycle of [ | + | 57:4.5 10,000,000,000 years ago the quartan cycle of [https://nordan.daynal.org/wiki/index.php?title=Paper_57#57:1._THE_ANDRONOVER_NEBULA Andronover] began. The maximum of [[nuclear]]-[[mass]] [[temperature]] had been [[attained]]; the critical point of [[condensation]] was approaching. The [[original]] [[mother]] [[nucleus]] was convulsing under the combined [[pressure]] of its own internal-[[heat]] [[condensation]] [[tension]] and the increasing [[gravity]]-tidal pull of the [[surrounding]] swarm of [[liberated]] [[sun systems]]. The [[nuclear]] eruptions which were to [[inaugurate]] the second [[nebular]] [[sun]] [[cycle]] were imminent. The quartan [[cycle]] of [[nebular]] [[existence]] was about to begin. |
57:4.6 8,000,000,000 years ago the terrific terminal [[eruption]] began. Only the outer [[Solar System|systems]] are [[safe]] at the [[time]] of such a [[cosmic]] [[upheaval]]. And this was the beginning of the end of the [[nebula]]. This final [[sun]] disgorgement extended over a period of almost two billion years. | 57:4.6 8,000,000,000 years ago the terrific terminal [[eruption]] began. Only the outer [[Solar System|systems]] are [[safe]] at the [[time]] of such a [[cosmic]] [[upheaval]]. And this was the beginning of the end of the [[nebula]]. This final [[sun]] disgorgement extended over a period of almost two billion years. | ||
| − | 57:4.7 7,000,000,000 years ago [[witnessed]] the height of the [ | + | 57:4.7 7,000,000,000 years ago [[witnessed]] the height of the [https://nordan.daynal.org/wiki/index.php?title=Paper_57#57:1._THE_ANDRONOVER_NEBULA Andronover] terminal breakup. This was the period of the [[birth]] of the larger terminal [[suns]] and the [[apex]] of the local [[physical]] disturbances. |
| − | 57:4.8 6,000,000,000 years ago marks the end of the terminal breakup and the [[birth]] of your [[sun]][ | + | 57:4.8 6,000,000,000 years ago marks the end of the terminal breakup and the [[birth]] of your [[sun]][https://en.wikipedia.org/wiki/Sun#Life_cycle], the fifty-sixth from the last of the [https://nordan.daynal.org/wiki/index.php?title=Paper_57#57:1._THE_ANDRONOVER_NEBULA Andronover] second [[solar]] [[family]]. This final eruption of the [[nebular]] [[nucleus]] gave [[birth]] to 136,702 suns, most of them [[solitary]] orbs. The total [[number]] of [[suns]] and [[sun systems]] having [[origin]] in the [https://nordan.daynal.org/wiki/index.php?title=Paper_57#57:1._THE_ANDRONOVER_NEBULA Andronover nebula] was 1,013,628. The [[number]] of the [[solar system]] sun is 1,013,572. |
| − | 57:4.9 And now the great [ | + | 57:4.9 And now the great [https://nordan.daynal.org/wiki/index.php?title=Paper_57#57:1._THE_ANDRONOVER_NEBULA Andronover nebula] is no more, but it lives on in the many [[suns]] and their [[planetary]] [[families]] which [[originated]] in this [[mother]] cloud of [[space]]. The final [[nuclear]] remnant of this [[magnificent]] [[nebula]] still burns with a reddish [[glow]][https://en.wikipedia.org/wiki/Sun#Life_cycle] and [[continues]] to give forth moderate [[light]] and [[heat]] to its remnant [[planetary]] [[family]] of one hundred and sixty-five worlds, which now revolve about this [[venerable]] [[mother]] of two mighty [[generations]] of the monarchs of [[light]]. |
| − | <center>[ | + | <center>[https://nordan.daynal.org/wiki/index.php?title=Paper_57 Go to Paper 57]</center> |
| − | <center>[ | + | <center>[https://nordan.daynal.org/wiki/index.php?title=The_Urantia_Text_-_Contents Go to Table of Contents]</center> |
[[Category:Paper 57 - The Origin of Urantia]] | [[Category:Paper 57 - The Origin of Urantia]] | ||
Latest revision as of 23:38, 12 December 2020
57:4.1 The primary stage of a nebula is circular; the secondary, spiral; the tertiary stage is that of the first sun dispersion, while the quartan embraces the second and last cycle of sun dispersion, with the mother nucleus ending either as a globular cluster or as a solitary sun functioning as the center of a terminal solar system.[1]
57:4.2 75,000,000,000 years ago this nebula had attained the height of its sun-family stage. This was the apex of the first period of sun losses. The majority of these suns have since possessed themselves of extensive systems of planets, satellites, dark islands, comets, meteors, and cosmic dust clouds.
57:4.3 50,000,000,000 years ago this first period of sun dispersion was completed; the nebula was fast finishing its tertiary cycle of existence, during which it gave origin to 876,926 sun systems.
57:4.4 25,000,000,000 years ago witnessed the completion of the tertiary cycle of nebular life and brought about the organization and relative stabilization of the far-flung starry systems derived from this parent nebula. But the process of physical contraction and increased heat production continued in the central mass of the nebular remnant.
57:4.5 10,000,000,000 years ago the quartan cycle of Andronover began. The maximum of nuclear-mass temperature had been attained; the critical point of condensation was approaching. The original mother nucleus was convulsing under the combined pressure of its own internal-heat condensation tension and the increasing gravity-tidal pull of the surrounding swarm of liberated sun systems. The nuclear eruptions which were to inaugurate the second nebular sun cycle were imminent. The quartan cycle of nebular existence was about to begin.
57:4.6 8,000,000,000 years ago the terrific terminal eruption began. Only the outer systems are safe at the time of such a cosmic upheaval. And this was the beginning of the end of the nebula. This final sun disgorgement extended over a period of almost two billion years.
57:4.7 7,000,000,000 years ago witnessed the height of the Andronover terminal breakup. This was the period of the birth of the larger terminal suns and the apex of the local physical disturbances.
57:4.8 6,000,000,000 years ago marks the end of the terminal breakup and the birth of your sun[2], the fifty-sixth from the last of the Andronover second solar family. This final eruption of the nebular nucleus gave birth to 136,702 suns, most of them solitary orbs. The total number of suns and sun systems having origin in the Andronover nebula was 1,013,628. The number of the solar system sun is 1,013,572.
57:4.9 And now the great Andronover nebula is no more, but it lives on in the many suns and their planetary families which originated in this mother cloud of space. The final nuclear remnant of this magnificent nebula still burns with a reddish glow[3] and continues to give forth moderate light and heat to its remnant planetary family of one hundred and sixty-five worlds, which now revolve about this venerable mother of two mighty generations of the monarchs of light.
