Ok, let me tell you
The more massive and denser the expanding densification, the slower the acceleration.
Still, the acceleration is slow and sure.
This is because as the expanding densities circulate with each other the expanding pushing force, they automatically push each other away from each other and at the same time away from the object from which they originate.
And such an object is thus constantly pushed away by an expanding pushing force having the nature of expanding supermassive objects in the centers of galaxies.
And at the same time, of course, the nature of the expanding galaxies that emerge from the inside out. That is, as these expanding supermassive objects collide with each other as they push forward, they release an expanding dark matter that creates new expanding stars without binding forces and without any pulling forces. And from the beginning, their trajectories still meet at a very steep angle. Today, the trajectories of space-expanding galaxies meet at a very gentle angle.
That is, expanding supermassive objects, expanding stars, expanding electrons, and expanding photons are created on the same principle about this.
Rough example.
https://youtu.be/QboDTgped1E
Ok, but that's not all.
Towards these really large-scale pushing forces, extremely fast pushing forces are pushed in from all directions in zillions as separate densities where the pushing force is no longer scattered in space.
The pushing force in them has pushed forward at an accelerating pace for billions of billions of years.
And when they now collide with these very massive and dense expanding densities, they cause their expansion to accelerate, inevitably pushing each other away from each other faster the faster the pushing force in them expands.
After all, they are circulating with each other the ever-expanding pushing force, and thus the expanding pushing force in them changes completely with time.
That is, our expanding visible universe consists solely of an expanding pushing force that accelerates from a certain direction to a certain direction, and in billions of billions of years, the pushing force we now have will collide with very, very massive and dense expanding densities, causing their expansion to accelerate. from such a really really large-scale recycler where the extremely dense pushing force explodes / expands all the time into a less dense pushing force
And as a result, an extremely dense and constantly denser dispersing / expanding pushing force is pushed in such a direction from such an object.
Ok, why does the very dense pushing force in these really large-scale recyclers never run out?
Well, they are pushed from every direction by that pushing force dispersed in space at an extremely rapid rate, and thus rushed into these very dense and massive densities, causing their expansion to accelerate.
And at the same time the pace of the pushing force in them slows down and slows down and when the pace finally fades away in relation to the environment, then they are inside such a really large scale object, perhaps very close to its center is there once again compressed into an extremely dense pushing force, because there the pushing force is subjected to enormous pressure / pushing force. And that compression into an extremely dense pushing force just so that it once again sets off with the very very dense pushing force around it to protrude away from the center of that very large size object.
It is a very large-scale recycling in which the expanding pushing force in space has the character of expanding galaxies emerging from the inside out.