What is dark matter and dark energy 1
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- Опубліковано 6 жов 2024
- Welcome to our journey through the cosmos as we unravel two of the universe's greatest mysteries: dark matter and dark energy. These enigmatic substances make up about 95% of the universe, yet we cannot see them directly. Join us as we explore:
🌌 Dark Matter: Discover how this invisible matter influences galaxies and cosmic structures with its gravitational pull, despite emitting no light. Learn about the theories and experiments scientists use to detect and understand dark matter, from Weakly Interacting Massive Particles (WIMPs) to axions.
✨ Dark Energy: Dive into the mysterious force driving the accelerated expansion of the universe. We'll explain what dark energy is, how it was discovered, and its profound implications for the future of the cosmos.
From the smallest subatomic particles to the vastness of intergalactic space, we'll guide you through the cutting-edge research and theories that are pushing the boundaries of our understanding. Subscribe and hit the notification bell to stay updated on our latest explorations into the unknown realms of the universe!
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The fundamental phenomenon of dilation explains galaxy rotation curves/dark matter. Mass that is dilated is smeared through spacetime relative to an outside observer. It's the phenomenon behind the phrase "mass becomes infinite at the speed of light". A 2 axis graph illustrates its squared nature, dilation increases at an exponential rate the closer you get to the speed of light. A time dilation graph illustrates the same phenomenon, it's not just time that gets dilated.
Dilation will occur wherever there is an astronomical quantity of mass because high mass means high momentum. This includes the centers of very high mass stars and the overwhelming majority of galaxy centers.
The mass at the center of our own galaxy is dilated. This means that there is no valid XYZ coordinate we can attribute to it, you can't point your finger at something that is smeared through spacetime. More precisely, everywhere you point is equally valid. In other words that mass is all around us.
Dilation does not occur in galaxies with low mass centers because they do not have enough mass to achieve relativistic velocities. It has been confirmed in 6 very low mass galaxies including NGC 1052-DF2 and DF4 to have no dark matter, in other words they have normal rotation rates. All binary stars have normal rotation rates for the same reason.