Asymmetric continuum with shear and rotation strains including quantum synchronous processes

Abstract

We shortly explain why the rotations strains should be included together with the shear strains in the theory of solid continuum; the related arguments are based both on the experimental and theoretical levels. In the presented Asymmetric Continuum Theory the wave propagation mechanism appears in a logical way with the respective shear and rotation strains. In this logical approach we include, beside the shear strains, also the rotation strains and their related wave propagation with shear and rotation strain interactions. Further, we try to explain how to describe a fracture process with a help of the quantum theory and with some synchronous motions. The synchronous quantum processes permit to explain the fracture mechanism and also may include a problem of the lightning and aurora events. This attempt might join the quantum processes with a fracture event appearing inside the elastic continuum with shear and rotation strains and with the synchronous quantum mechanism; this is a new approach joining the improved classic theory with the quantum events, which lead together to the synchronous processes.