Oscillating reactions are interesting to me because they create concentric circles from two forms of information or chemicals.
One reaction that comes to mind is the BZ Reaction or Belousov–Zhabotinsky reaction. A Belousov–Zhabotinsky reaction, or BZ reaction, is one of a class of reactions that serve as a classical example of non-equilibrium thermodynamics, resulting in the establishment of a nonlinear chemical oscillator. The only common element in these oscillators is the inclusion of bromine and an acid. The reactions are important to theoretical chemistry in that they show that chemical reactions do not have to be dominated by equilibrium thermodynamic behavior. These reactions are far from equilibrium and remain so for a significant length of time and evolve chaotically. In this sense, they provide an interesting chemical model of nonequilibrium biological phenomena, and the mathematical models of the BZ reactions themselves are of theoretical interest and simulations. What is probably the most significant of this reaction is that it is a chemical oscillatory reaction, fluctuating in color.
The oscillations remind me of the mathematical proof that came to me as a representation of the universe. [A+][B-] / [b-][a+] Where A+ and B- oscillate with lower-case b- and a+. The image below is a visual representation of [A+][B-], the visual representation for [b-][a+] is just half of [A+][B-]. In traditional mathematics, the square brackets indicate a matrix. A matrix is a concise and useful way of uniquely representing and working with linear transformations. In particular, every linear transformation can be represented by a matrix, and every matrix corresponds to a unique linear transformation. The idea of the universe operating in a matrix form is not new, however, perhaps finding a way to visualize it may be.
As one may see, the BZ-chemical reaction produces two expanding spirals. In the LSF framework spirals are expressions of light. In a treatise about the metaphysical significance of PI (3.14) it stated that that numerical proof explains both the linear and nonlinear characteristics of subjective experience and objective manifestation. Subjective experience and objective manifestation could be the oscillating mind-states that manifests our physical world. In one instance the physical world is a subjective experience and in the next instance it is an objective manifestation. We are constantly experiencing and manifesting. The BZ-chemical reaction provides a physical visual of this math and deeper insight.