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10. Stars and galaxies
| 10.17 |
The Milky way cluster of galaxies |
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| By applying the rules and understanding from the previous chapters, we are now able to consider a much clear map of the region of space from around 500,000 light years to 1.5 million light years from our Earth. | ||
| Let us now look at the relative features of the Milky Way cluster of Galaxies. | ||
| The Large Magellanic and Small Magellanic Clouds | ||
| The closest galaxies orbiting our own are the Large Magellanic and Small Magellanic Cloud Galaxies. Both of these galaxies are irregular shaped and an average of 150,000 light years from our own. | ||
| However, because of the elliptical pull effect of the ergon particle fields of our Milky Way and those of the Magellanic galaxies, their orbit would is not circular. It is almost certain that the small Magellanic galaxy orbits the larger Magellanic galaxy and that combined they orbit the Milky Way. | ||
| At their closest point, the two galaxies are likely to come within 11,000 to 12,000 light years, while at their furthest point, their distance between each other would be around 34,000 light years. This is an average of around 23,000 light years. | ||
| As the large Magellanic galaxy commands the dominant orbit around our galaxy (estimated at an average of around 150,000 light years), it is estimated that at their closest point, the clouds would be within 100,000 light years of the Milky Way and at their furthest around 300,000 light years. | ||
| The significance of the orbits of localized galaxies | ||
| Just like planets, these galaxies would affect the general output of ergon particles depending on their proximity. The closer a galaxy is to our own, the higher the output of ergon particles, which in turn would affect the overall levels of energis in our region of the galaxy. | ||
| Furthermore, the location of these galaxies relative to our own would provide further harmonic differences to the relative seasonal concept discussed earlier of 4 seasons of 53 million years as our Sun rotates around the Milky Way. | ||
| At its closest point to the Milky Way the Magellanic clouds would significantly boost the ergon particle output of our galaxy. Therefore we must consider the larger seasonal variance of the local galaxies orbiting around our galaxy. | ||
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