Vmedvil5 Posted September 8, 2022 Report Share Posted September 8, 2022 (edited) This is a video by Kurzgesagt about what dark matter and dark energy is, I found it interesting. This is a video from NASA about dark energy and dark matter. Edited September 8, 2022 by Vmedvil5 Quote Link to comment Share on other sites More sharing options...
JeffreysTubes8 Posted September 17, 2022 Report Share Posted September 17, 2022 (edited) To some it up everything started with infinite spheres moving in infinite directions with infinitely various velocities. The t directions, the moving of the spheres themselves, is dimension 4. The sphere were dimension 3. The lines in the x directions and z directions that made them were individually dimension 1. The points upon each line were dimension 0. Murphy's law says whatever can happen does happen. What happens when a sphere of a planck length crosses another one identical with it partially? All of space and time within a single planck length of the two is reduced by a planck length until it expands. Gravity waves determine photons here. But when gazillions of planck spheres are wholly in the same space at the same time, it is just an smbh singularity. It flings photons ftl. They hit each other and create gravity waves that expand fields at light speed that frame-drag planck objects by gazillions planck time lengths in that instant. Time dilation is how often that instant occurs, in single graviton collision that frame-drag instant occurs at a Planck time within that field radius, or in opposite directions within the field diameter. This prevents infinite spheres from coalescing. You have a whole entire missing chapter in the BBT model in which the smbhs form and the difference of tugs between the dark energy create matter between the separating objects. Matter actually emits ftl grav waves because they aren't single gravitons crossing one another but hundreds or thousands of gravitons with the same center crossing, this is dark matter when they release g waves which propagate ftl and tug many tiumes per planck length although when we look at colliding neutron stars they just look like c because they tug less than a planck length. Now I would wager that we would eventually meet with an antimatter universe in such a place as I have described. Everything within a vicinity greater than a particle horizon or hubble radius will be uniformly stretched to the specifications of matter but in other parts it would be antimatter. We already have stars here in our galaxy that have come from outside the hubble radius https://futurism.com/star-thats-older-universe and segue 1 is entirely made of white dwarves. Edited September 21, 2022 by JeffreysTubes8 Quote Link to comment Share on other sites More sharing options...
JeffreysTubes8 Posted September 21, 2022 Report Share Posted September 21, 2022 (edited) Actually, I don’t believe anti-matter galaxies are even out there, if the kind of dark energy is caught and transformed into atoms and noble gases between gravity waves of an smbh (up quarks) and a dark energy g-wave (down quarks and the weak force and electromagnetic radiation). I think energy is when a lot of tightly packed gravitons which are clashing hundreds of times over in one location get separated. Sometimes they can’t even be separated, because two or more gravitons become one, such as is the case in black holes. The local pull is slower in terms of frame dragging within the field but stronger so from close range the waves are slower than light but the field acts upon gravitons like light or even in the case of tunneling & dark matter, faster, but neutron stars from afar the field is equal if not a bit slower than light in terms of frame-dragging. Edited September 21, 2022 by JeffreysTubes8 Quote Link to comment Share on other sites More sharing options...
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