Networking at the LA Tech Mixer

Motivating the future of technology and industry in a scientific setting requires a combination of human resources, innovative academic ideas, and a scattering of thoughts from an initial impulse. The amount of collective consensus reality built into the modern network of associates in General Physics, for example, is a function of interaction quanta. Essentially, the energy per interaction is defined by the mixing of ideas. If this sounds complicated, then imagine a simpler example. Given an ensemble of particles, the network that develops from their interaction is ultimately defined by a variable hopping model of nearest neighbor correspondence to first order, and then to the response of the outlying areas. The energy is quantifiable, even in the human resource networking sense. Basically, at a mixer or convention, like the LA tech mixer where General Physics searches for talent, the reality of connectivity is defined by the fundamental observational quantum.

From first principles approaches to studying the dynamics of particles, a complex adaptive system emerges. The global scientific enterprise, as defined by Gell-Mann, exemplifies the nature of emergent data driven results. A basic interaction sums to something greater than the addition of the parts. In physics and mathematics, analytic continuation defines these infinite sums which truncate to closed form solutions. What is happening delimits the neural net, the array, the matrix, and the system of interacting variables such that their finite properties are accounted for in a canonical way. Nodes in the connected diagram, when analyzed with Fourier analysis, generate at the limit, a Riemann zeta function that resembles a prime numbered basis oriented graph. By closed form solution, we mean the infinite interactions of networking scientists, when taken to that limit, create a deterministic equation of motion or a predestined path along a geodesic. The variables are all constrained, the thoughts, the business card exchanges, the merging of websites, the collection of phone numbers and email addresses, etc. which all culminate in the prime numbered limit as defined by the zeta. When patterns emerge, the result is a resonance, something that Fourier analysis finds easily.

Again, this is too complicated. A rigorous analysis of the tech mixer event leads to a theory of interaction defined by energy, time, and spatial position mapped to a connected diagram of topological certainty. The commutation relations, what scientists use to define the mixing of states and the quantifiable quantum uncertainty, is classically governed by the fundamental postulates of physics. Actions have reactions, money defines strength of interaction, position space builds relationships. The grand summation and thermodynamic set of parameters is inherently closed, deterministic, and ordained to move according to the laws of coherence in quantum mechanics.

Although quantum is not entirely relevant in the macroscopic world, the fact that there is free will is a consequence of the wave-particle duality and ultimately the observation problem. Interacting people, like particles, at the event, are behaving according to set laws, quantifiable up to a point. The result in summation creates a system of equations and built in uncertainty that allows the business consultant to accurately network through a stochastic approach to network mixing.

Laws of networking are like that of human emotion, ultimately determined from a neuroscience and psychological point of view. The physics, which is at the heart of these disciplines, requires a mathematical approach to solving for efficiency in collaboration. General Physics is happy to network with a concerted effort to find talent through quantifiable parameterized data. Let's collaborate and and tackle whatever problems we face; the network of the global scientific enterprise builds peaceful, irenical, and long lasting soft power results. Globalization builds connectivity and good will. See you at a future mixing event.