Every new idea is a good idea, until it’s been proved wrong. When it comes to the large scale structure of the galaxy there are some ideas that many people believe to be true, but have never been proven. In this blog post we’ll examine those myths and give you a few facts about the large scale structure of galaxies in general and our own galaxy in particular. The first myth is that the large scale structure of the galaxy is “conserved kinetic energy” or K-E. In astronomy we talk about the kinetic energy of a system and this is technically true but it doesn’t mean what people think it means. In particular, there are lots and lots of examples where galaxies are moving very fast with respect to the stuff they’re made out of. If you think you can spread it to a lot of people, Youtubestorm can help you get more and more audience.
Table of Contents
Cosmologists believe that there is a large-scale structure of matter existing in our universe.
Space weather is the indirect result of fluctuations in an extremely hot plasma.
The study of the Cosmic Web.
The cosmic web is much more diffuse than expected by experts.
Gas clouds in the cosmic web.
Diffuse galaxy infrastructure model.
Conclusion
Cosmologists believe that there is a large-scale structure of matter existing in our universe.
They call it a “cosmos”, and there are many theories concerning its formation and nature. Some of them are space weather, dark matter, or a variety of other factors. In this paper, I present some of the most promising theories on the formation of the cosmos.
Space weather is the indirect result of fluctuations in an extremely hot plasma.
Hot plasma can be thought of as a highly-charged conductor. In the early universe, it was probably very similar to quarks, protons, and neutrons, but as time passed, it became ionized and became very heavy. During a recent study by astronomers, it was found that there were large amounts of neutral hydrogen in the cosmic web. This was surprising because neutral hydrogen does not have a proton. This further implies that there must be another massive structure existing other than the standard cloud of ordinary matter that makes up the Milky Way Galaxy.
The study of the Cosmic Web.
Such study has been done by Antonucci and Feng-Xian Tan of Yale University and Slade Center for Computational Cosmology at Yale University says cantalupo. Cantalupo is located about 40 light-years from the gamma-ray space center of Mauna Kea (Mkkae) on the island of Hawaii. They say that this region is a large collection of very cold, low density clouds. It is unlike any of the usual large-scale structures of matter within our solar system. It is very cold (polar cold), it consists mostly of hydrogen and helium, and it contains a variety of exotic quarks that have never before been seen elsewhere.
The cosmic web is much more diffuse than expected by experts.
It is not as tight as one might think, and it has neither many large spiral arm formations nor many very small spiral arms. It also has a diffuse structure and is very irregular, with many large and faint galaxy clusters and numerous dark matter clusters (like milky pups or void disks). It also contains many super spirals, which are very cold and very dense when they are at the edge of the spiral arms. The presence of large spiral arms in the cosmic web can be explained only by the expansion of the universe and by the effect of gravity on particles within the cluster.
Gas clouds in the cosmic web.
The second aspect of the cosmic web is the presence of large amounts of gas clouds, which are hot and very dense when they are far away from the sun. They give off a glow, similar to the glow that high-energy stars give off, but they do not emit UV radiation and they are not gas clouds. If this model is correct, it implies that we may find many very cold and very dense clouds around very young stars, in the form of nebulae, which are either completely gas or partially gas, and which may contain primordial dust that has accumulated in their center.
Diffuse galaxy infrastructure model.
This model implies that there is no tight firewall that secures the fabric of the Milky Way from interlinking with other spiral arms, or that there are several filament bridges connecting different spiral arms. In such a model, the act of contracting or expanding a filament would cause the cloud to rotate and move into a different orbit, thus moving closer or further from the point it started off from. The presence of numerous filaments connecting a compact galaxy like the Milky Way to other very small ones like the Bullet Space Cloud could also be explained by studying the effects of barium or sodium iodide on stars.
Conclusion
Siding with the cosmic web model is the idea that the distribution of matter within the Galaxy is highly asymmetric, as is the distribution of mass in the solar system. According to this model, there is no “heartbeat” in the Galaxy, just like there is no soul in a human body. According to this model, the rate of expansion of the Galaxy is much faster than the rate at which it is contracting. And the final thought that comes to my mind when I read this is the possibility that, like the Universe, our own Solar System, too, will someday collapse. Please consider all this.
