This article is within the scope of WikiProject Academic Journals, a collaborative effort to improve the coverage of Academic Journals on Wikipedia. If you would like to participate, please visit the project page, where you can join the discussion and see a list of open tasks.Academic JournalsWikipedia:WikiProject Academic JournalsTemplate:WikiProject Academic JournalsAcademic Journal
This article is within the scope of WikiProject Astronomy, which collaborates on articles related to Astronomy on Wikipedia.AstronomyWikipedia:WikiProject AstronomyTemplate:WikiProject AstronomyAstronomy
When did our Solar System begin? The nebular hypothesis is that it must have started sometime during the last 4.5 billion years. Consider our Milky Way during the last 4.5 billion years. How can this hypothesis be proved? If one considers our Milky Way, see https://www.bing.com/search?q=milky+way+galaxy&pc=GD01&form=GDAVST&ptag=3605, you can read that our Sun is on the Orion Arm of the spiraling galaxy. It therefore appears that our Sun must have come from a rapidly revolving equator of that central star. As that star, like our own must be too hot to have solid rocks or virtually solid Suns like ours. How did it get blown into space? Could it be through a massive coronal ejection like happens on our Sun? But our ejections would be tiny to that of the central star of the Milky Way. So, if we can agree that our Sun and the other stars must have come from one or more coronal mass ejections (CMEs)? When would those stars have become 'solid entities'? Would it not have been when the gas and plasma of the CMEs cooled off to the point that they would congeal into the stars that now exist? Another article says, referring to CMEs: "Solar flares are sometimes accompanied by a coronal mass ejection (CME for short). CMEs are huge bubbles of radiation and particles from the Sun. They explode into space at very high speed when the Sun's magnetic field lines suddenly reorganize. (https://spaceplace.nasa.gov/solar-activity/en). This seems to suggest that our Sun and the other stars were most likely huge bubbles of gas and plasma that exploded from under a huge Sunspot on the equator of the central star of the Milky Way. If this is true, then the nebular hypothesis of our star and planets having come from a gathering together of stellar dust is wrong. The timing of our Sun must therefore go back to when that initial explosion on the rapidly revolving equator of that central star. As suggested in articles on Coronal Mass Ejections, what happened on the Milky Way must have happened with our Sun. As our Sun is so much smaller though, it would have been only able to explode a small CME from itself, that is, in comparison to the Milky Way creation, The Sunspots on our Sun travel about 4,200 mph or 6,750 kmph, so anything being ejected from our Sun into interplanetary space would cool off, congeal and become our spherical rocks, meteorites, and planets from those "bubbles". No wonder there are so many spherical rocks and spherical planets. What do you think about this concept of gas and plasma turning into rock and our bodies of matter in our Solar System? Cliffordbess (talk) 22:51, 26 May 2025 (UTC)[reply]
.jpg?lang=en){kind=small}
