Last updated on April 2, 2026
Just got some thorughts about space unit’s interior length d_u, outside size and coordinates during conversation with Grok, and as always Grok helped a lot.
1. a space unit has a variable interior length d_u and a fixed exterior grid boundary size d_p
The interior length of a space unit d_u=c/f_g, which is determined by its local static time field gravitational frequency (and which is not correlated to static time field space speed frequency f_v).
The exterior grid boundary size of each space unit is d_p Planck length which doesnt change along with d_u.
This corresponds to the idea in General Relativity that the coordinate grid can stay fixed while the actual physical (proper) distance between coordinate points stretches according to gravity.
This may be why in some UFO encountering events the interior of UFO seems much larger than its size look like from outside, and maybe they manipulate f_g by some nongravitational method.
2. why is the exterior grid spacing/boundary size of each space unit fixed as Planck length d_p?
Even a black hole occupies Space Units of the standard exterior size in the fixed global grid, just like any other region. In General Relativity we can still assign coordinates to points inside and around a black hole and calculate volumes, which shows that the coordinate grid remains meaningful and fixed. In the static time field model, the exterior grid boundary size of every Space Unit is therefore fixed at the Planck length d_p. What changes locally is only the interior physical length d_u = c / f_g.
3. The universe is tiled by Space Units of identical exterior size located at rigid integer XYZ coordinates
The entire universe is built from countless space units arranged on a fixed, discrete grid, like tiled up by voxels of identical exterior size.
Each Space Unit occupies a unique position labeled by integer coordinates (X, Y, Z). These positions form a rigid lattice that never stretches or moves.
Each space unit has its own attributes including space unit interior length d_u=c/f_g which is determined by local static time field gravitational frequency f_g.
XYZ determine each space unit’s unique position in this universe, and local f_g determines the space unit’s interior length or stretching.
4. what does an interior stretching space unit look like?
If an outside observer at a region of non stretching space units can see the light from the interior of another region of stretching space units, the image will look like seeing through an magnifying lense which make the space behind the lense bigger than the space outside the lense. And if the outside observer looks at the region of non stretching space units surrounding the stretching units, there will be no stretching effect caused by the stretching units for any space unit no matter stretching interiorly or not keeps the identical outside size.
5. all space units form 3D NOW intersection on 4D statie time field
NOW intersection of 3D is like a 3D screen on which the 4D film of static time is played. At a point of dynamic time, this 4D static time film is fixed, and this static time will evolve along with dynamic time’s passing. All interactions must happen between the objects or points in same static time at same point of dynamic time.
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