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THE REAL BIG BANGS So something happens with each successive parent pocket of spacetime. Our aggregate relative velocity increases. Our planet orbits the sun at approximately 66,627 mph or 107,226 km/h or just about 30 km/s. Our sun and solar system orbits the center of the Milky Way at a speed of about 220 km/s. Our galaxy is estimated to be moving pretty close to 550 km/s but so is the local group and each successive frame of reference introduces an additional layer of relative velocity and in the end when we try to take into account all the successive frames of references just inside our visible universe our planet is moving much faster than the 30 km/s of its orbit. There are conflicting estimates of anywhere between about 400 and 600 km/s but the point is that each successive frame of reference increases the total aggregate relative velocity and we can add to that number the relative velocity of our Post as it moves through space time. There is a celestial object, US 708 that is potentially moving as fast as 1,200 km/s. Add to that any speed from our grandpost. And great-grandpost and continue on and on as we increase in scale factor. The addition is not huge amounts and the velocities would begin to decrease in the amount they aggregate. So for the first 10 nested frames of references we could be looking at each parent adding 50-150 km/s maybe some might add a little more and then the next 90 nested frames might add between 10-75 km/s each and the next 100 maybe each one adds between 5-20 and we get to a point where each successive nested frame of reference adds 1-5 km/s and then probably even hit levels 1,000 or 10,000 or 100,000 nested frames of reference deep where each increase might only be .25 or .025 km/s. We will likely never be able to calculate the number of nested levels deep we would need to be in order to be moving at or near the speed of light but in theory that frame of reference exists. Relative to some larger frame of reference we are in theory moving at tens of thousands of kilometers per second and compared to an even larger frame of reference we are approaching 299,000 km/s. So now thinking about this natural state of nature where the larger the scale factor we use as frame of reference the faster our planet and sun and entire universe is moving we can try to visualize what happens when two different frames of reference collide. The larger the scale factor involved in the collision the faster the relative speed of the collisions that happen at scale factors tens of thousands times smaller or hundreds of thousands of times smaller. Most collisions do not turn matter into energy. Most break up matter into smaller pieces when they collide but there are times where two very large frames collide. In those instances we could have objects colliding at potential relative speeds nearing 2C. But we may not in fact need speeds that high to achieve the same hot energy plasma cloud that cooled into our Post. The heat of the singularity was based on estimates of how long it would have taken to cool to reach a certain size of the initial CMB. If the universe started at a much larger relative size and not from a singularity the temperatures instead of 10^32 kelvin could have easly been closer to 50,000 - 100,000 kelvin and still created the hot energy clouds that spun into our galaxies. Its been said that two universes colliding would not create enough matter to produce our universe because such a huge percentage of objects would miss each other. That is very true but the wrong approach. After two Posts collide an overwhelming majority of the two Posts likely end up remaining with the cohesive Post they start with after they pass through each other. But not all objects will be so lucky. We can have planets moving at .5C or .75C crashing into stars moving at a relative speeds of .6C or .8C. The explosion would be amazing and the release of kinetic energy and heat would be massive. But there can be spots where two black holes collide and they would not merge. The speed of impact might leave a central large black hole or lots of smaller black holes but it would still produce massive amounts of energy and things like Neutron stars colliding would also produce massive explosions of energy. This is not like two planets from inside our galaxy colliding because the relative speed of an object from a foreign frame of reference can in fact exceed the speed of light. A single object would not move faster than the speed of light but if each object is moving faster than half the speed of the light then the kinetic energy increases as that speed increases and the collision of two objects from two different frames of reference that are hundreds of thousands of times removed from the subordinate objects that actually collide can produce more mass than the starting mass of the two objects. If hot energy cooled to form the atoms that made up our universe and cooled down when they hit about 3,000 kelvin then all that kinetic energy of two objects colliding at relative speeds of 1.25 C or 1.75 C would convert to heat and energy upon collision. All the other items that don't collide move on and leave behind one or more pockets of hot energy that cool into pockets of space time and when multiple pockets are created they will create a tensor mesh of spacetime between them as they share the same relative trajectory and velocity. The densest most massive pocket or pockets would in turn attract less dense pockets and the matter becomes a new instance of relative spacetime. The frame of reference that was the shared parent of the two objects that collided would in turn become the parent (directly or indirectly) of this new pocket of spacetime and provide the initial spacetime and perception of the passage of relative time. So lets say multiple collisions took place that produced hot dense clouds of plasma energy that quickly formed atomic nuclei and free electrons. The current Lambda CDM model that relies on cold dark matter and an expanding universe that started from a singularity thought it would take 380,000 years of cooling before the temperature was low enough for electrons to being to obtain stable orbits. If instead there were multiple collisions all giving off tons of heat and energy there could have been 10 years or 100 years or 10 months of time that was needed to cool down in order to create the impression we read from the CMB. Uniformity of temperature would not be unexpected when multiple collisions happen at near the same relative speeds releasing approximately the same amount of heat and energy. So if the collision theory as a big bang catalyst is true it makes a handful of predictions. I'll discuss each in the next few guides because those predictions are ones we have already observed and thus already find evidence to support but there is another prediction it makes that has not yet been observed and might take a very long time before it is observed. The predictions would be that a collision even of two neutron stars each moving at .9 the speed of light might not pulverize 100% of the matter or there could be collisions that were minor bounces off each other and not actual collisions. So with our ability to perform things like carbon dating to approximate the age of an item I predict we will one day find one or more things inside our universe of with an age of 20 billion or 50 billion years old. It might be a remnant left over from the big bang or it might be a rouge traveler that enters our space time after being ejected from some other frame of reference. If we ever do find evidence of an object that is 20 or 30 or 50 billion years old that would then validate collision theory over singularity as the most likely catalyst to have caused our big bang. Our big bang was one of an infinite number of collisions of pockets. There were an infinite number of colliding pockets that occurred before our big bang took place and there have been an infinite number of pockets colliding since our big bang happened and there will be an infinite number of colliding pockets taking place long after every proton in our universe has eventually decayed. #therealbigbangs #successivecollisiontheory #thebigbang #BIGBANG This video helps put in perspective how large some celestial objects are and we have no idea what larger objects might exist outside our Post. When they collide with the kinetic energy of relative speed of impact greater than the speed of light we get more matter created than the mater they started with.
https://www.youtube.com/watch?v=TXfOzhZGtNw
#thenaturalstateofnature
All the darkness in the entire vast multiverse can not defeat the flame of a single candle.
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