Analyzing the Connected Networks of Social Interactions

Recently, General Physics scientists have been undertaking the problem of understanding time turbulence and the nature of the clock-like passage of relative time. Being on the clock is a representation of the complex interworking of space localization (gravitational bodies slowing time essentially) and the negative sign associated with the four vector. What this means in conservation laws, is that the flow of time is connected to a physicalism. The reality of time is one that is represented in the Heisenberg picture with an uncertainty relation. From the complex interplay of time coordinates in relativity, comes an interaction picture that when analyzed with Fourier transforms, indicates a broadening of peaks associated with frequencies and consequentially patterns. Broadening is a function of energetic spread in position associated point-like states. A position has a certain associated energy and that is a manifestation of the curvature of the spacetime, something that is a product of a physical massive space. When connecting the dots to the social network, the pure abstract qualities of spacetime are correlated to massive objects. Of course, we are free to create a universe in Noether's limit, an idea that generates a thermodynamic law. First principles means that the associated energy of a universe, and the conservation of energy, are relative to the frame of reference of the initial conditions.

Laplace distilled this idea in the concept that a sufficient intelligence can predict, with boundary conditions, the infinite future and trace the infinite past with adequate boundaries. The social network is essential this. The bounds of the universe are the topological connections. More meaningful than the spacetime mass and charge states, are the multi-dimensional interaction and scattering pictures, so eloquentyl posited by Dirac. Scattered product states are also relativistic and in the social network state, the basic multi-dimensional model of interaction and the points in spacetime are corrleated with a complex adaptive system between the localized constituents and their associated energies of interaction. Governments, social networking internet pages, correlated SMS networks (SS7, SMF, IWMSC, etc.), E164, E212, and the further blade in the data center are parts of an irreducible set of points. Fourier analysis generates the pattern, in this case, at the most fundamental level, a Riemann zeta function.

Much of the work of General Physics does in determining the social network, is finding the topological connection or the Weyl interpretation of points and not the Cartesian. In this sense, conduction is done via electronic, wireless, and information interaction. Quantum entanglement, which leads to the spooky action at a distance concept, was introduced to discuss interaction energies in a superluminal space. Maybe the Aharonov-Bohm case is important, but the nature of reality is one where the complex states of spacetime are less meaningful than the strength (weighting function) of interaction in the connected diagram. Most multi-body many-body quantum mechanics relies on connected diagrams and the Green's functions propagating from the nodes or vertices. Vertex operations and vertex operators in string theory, the angles of scattering, and everything at the LHC is a scale invariant prime numbered interaction picture related to a basis of the Riemann zeta function.

General Physics is likely going to continue work in the discussion of the Fourier analysis of the social network and to map the complex adaptive system (neural net, A.I., social system) through a rigorous weighter scale invariant model. Our team is hard at work to find what it is at the heart of interaction and what makes topology rather than spacetime, the key to understanding and analyzing social interaction.