[AntonioLao]

It’s the acronym for Super Advance Space-time Structure. It is very difficult to imagine just how large the structure can be (maybe the size of the entire universe) but less difficult to imagine just how small it can be, perhaps, smaller than an electron. If it is any smaller then in the words of Michio Kaku: “These divergences reflected our ignorance concerning the small-scale structure of space-time,” page 4, Quantum Field Theory: A Modern Introduction, Oxford University Press, Oxford, 1993. Different sizes of SASSes would then comprise the infinite number of multiverses. There are at the least three distinctive varieties: NASS, PASS, and ZASS. NASSes have negative curvatures, PASSes have positive curvatures, and ZASSes have zero curvatures.

If equal number of PASSes is added to equal number of NASSes the result is equal number of ZASSes. However, if different numbers of PASSes are added to different numbers of NASSes, and depending which numbers are greater or lesser, the result could be many NASSes, or PASSes, or even ZASSes. All these would then comprise many common structures to which the present state of our universe is a typical example of an ordinary Advance Space-time Structure.

The curvature ( K ) of SASS is defined as the inverse of the square of the radius of curvature ( R ), K = 1/R. If R has unit of length then K has unit of inverse areas. Moreover, for specific mass of one kilogram, the curvature becomes the K of a direct proportion between absolute acceleration ( a ) and the ultra gravitational pressure ( P ) of the force of gravity given by P = K|a| - N/S, where N is the normal force and S is the surface area perpendicular to the normal force.