摘要
银河系旋涡星云在旋转运动中 ,外旋带产生了次级原始太阳螺旋星云。原始太阳星云在旋转中产生物质分异 ,并有重物质向核部集中现象 ,当核部质量接近一个太阳质量时 ,遇超新星或类星体的强大压力或有物质参与而使原始太阳星云中核部收缩、集中、点火而具有核反应能发光的太阳。星云旋臂中的物质也成大小不等的原始星子。太阳产生了引力、磁力 ,又有太阳辐射 ,它们与旋臂扭动相反 ,二者呈双螺旋反向扭动复合 ,使星子集中并按轨道形成了各大行星。
With the rotation of galaxy spiral nebula, subordinate initial solar spiral nebula started to form in the outer rotational belt. Material differentiation and centripetal concentration of heavy substance occurred in this initial solar nebula. When its central quality got heavy enough, because of powerful pressure and even additional substance from supernova or quasar, this initial solar nebula further contrasted and concentrated and, finally, ignited and turned into a nuclear-reaction and illuminating sun. Materials in the rotational arms became pits of various sizes. Gravitational force, magnetic force as well as solar radiation are all in reverse direction with the rotation of the spiral arms, and the combination result of this double spiral reverse twisting made pits concentrated into major planets moving in their own orbits. This course is also a process in which giant living things reproduced.
出处
《云南师范大学学报(自然科学版)》
2002年第1期56-60,共5页
Journal of Yunnan Normal University:Natural Sciences Edition
关键词
太阳系
螺旋星云
复合成因
星系繁殖过程
起源
solar system
spiral nebula
synthetic origin
reproduction of giant living things
