[AntonioLao]

continuation...

In accordance with concepts of space-time curvatures of general relativity, pv would then correspond to positive principal curvature and nv negative principal curvature (see http://mathworld.wolfram.com/PrincipalCurvatures.html and http://en.wikipedia.org/wiki/Curvature). Their sum is defined as the mean curvature of space-time. In cosmology, the mean curvature is clearly related to the cosmological constant (L). Most recent astrophysical observations determine its value as L» 0 (see http://en.wikipedia.org/wiki/Cosmological_constant). In light of dysfunctional analysis, the observed value of L implies that the total number of H-pluses is equal to the total number of H-minuses. Since these H’s represent space-time quanta at different states of quantization, they can be used to represent various physical observables such as mass, electric charge, energy, force, linear and angular momentum, pressure and volume. It can also represent the extrinsic thermodynamic properties of temperature, entropy, and heat flow. So, globally speaking (definitely not locally) when total H-pluses and H-minuses are equal in number then these physical observables should likewise be equal. That is matter=dark matter, energy=negative energy, pressure=negative pressure, equality of opposite linear and angular momentum, etc.