Galaxies Mass & Dark Matter
By John L. McGary JSG Saturday, Oct 31, 2020Why are galaxies so heavy?
The most widely accepted view is that there is some kind of dark matter that would account for all the extra gravity. However, it is not something we can detect and nothing can seemingly interact with it. It is this fact, that seemingly nothing else can affect it, which made me go down a different path. What if the reason nothing can affect it is that it is not in our time-space? What if dark matter/ dark gravity is weak areas of time-space where the gravity of black holes is leaking through, but then they are being manipulated by other gravimetric forces as if you were using a warp tool in Paint shop pro to distort an image? All the material inside a black hole is where it started from, all the way until it ends. Moreover, since black holes move, there is a line to follow that is outside of time. Now, what if a large gravimetric object passes through where a black hole has been or where it is going? Does it have enough force to make some of the gravity bleed through into our time-space and then become manipulated again by other gravimetric forces? What if 2 or 3 galaxies cross? It doesn't even have to be at the same time because the matter inside a black hole is outside of time. As a visual aid imagine a tub of water and you carefully paint a line in the water and then slowly run a blender through it, the line represents the path the black hole has followed and will follow and the blender represents other celestial bodies, i.e. stars, black holes, etc. In this model, you could have areas of gravity that have a physical body around it and is unaffected by other masses of gravity. You can't interact with it because it is outside of time, but some of the effects are leaking through to our reality, everything that will affect it already has but in the future and in the past simultaneously.
Ok, that's all well and great but how do you prove it? Well, we would literally be looking for subspace distortions, how cool is that? One way would be to predict where you think there should be a lot of dark gravity and hyper-observe that area. You see if you could predict where 2 galaxies were going to collide in the future like say if you knew where the Milky Way and Andromeda were going to collide you could check to see if the movement of stars behind that area was consistent, ie if the speed is constant then there is no anomaly but if its speed goes up and down while moving behind this area then you could surmise that there is a gravimetric distortion. Isn't science fun?
Ok, that's all well and great but how do you prove it? Well, we would literally be looking for subspace distortions, how cool is that? One way would be to predict where you think there should be a lot of dark gravity and hyper-observe that area. You see if you could predict where 2 galaxies were going to collide in the future like say if you knew where the Milky Way and Andromeda were going to collide you could check to see if the movement of stars behind that area was consistent, ie if the speed is constant then there is no anomaly but if its speed goes up and down while moving behind this area then you could surmise that there is a gravimetric distortion. Isn't science fun?
Now here is something to give you a brain cramp; is the dark gravity there before the black hole that it comes from is created? Talk about causality. Does the dark gravity just pop into existence when the black hole is formed or does it go back to the beginning of time itself?
Here is something fun if the creation particle is outside of time if it moved at all before creation does that mean that everything outside of the universe is the creations particle? If so does that mean that black holes are just doorways back to the creation of the universe? Is that the reason that the universe is expanding exponentially because it is forever chasing the creation particle but can never catch it because it is outside of time? Ok, now you're getting a little far fetched but again Isn't science fun?
Sources; Dark Gravity, Neil Degrasse Tyson
Subspace anomaly, TNG
Big bang, Sir Fred Hoyle
Causality, Albert Einstein
Hubble space telescope
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