It Takes 26 Fundamental Constants To Give Us Our Universe, But They Still Don't Give Everything In our universe, at its fundamental level, the particles, the forces, and the interactions between them can be described with 26 constants of physics. The top 7 are:
    • the speed of light in a vacuum
    • the Planck constant
    • the elementary charge
    • the Boltzmann constant
    • the Avogadro constant
    • the luminous efficacy of a defined visible radiation
    • the cesium hyperfine frequency
    • It takes 26 dimensionless constants to describe the Universe as simply and entirely as possible. Note: More will be needed to solve the matter-antimatter asymmetry problem. The problem of cosmic inflation.The issue of dark matter. The problem of strong CP-violation.
    The strong coupling constant defines the strength of the force that holds protons and neutrons together. A cosmological constant is required because the universe’s expansion accelerates due to dark energy.
  • Complex adaptive systems that the agents in any system are all the components of that system and interact and connect in unpredictable and unplanned ways. For instance, air and water molecules interact in a weather system, and plants and animals interact in an ecosystem.
  • Adaptive systems change themselves over time. Non-linear systems come from sources that are not directly aligned.
  • A  chaotic system is a complex dynamic system. It is sensitive to initial conditions and topologically mixed. Its periodic orbits must be dense.  Complex adaptive systems operate with interconnectedness and interdependence. They live near the edge of chaos. The result is that their behaviors and outcomes are difficult or impossible to predict. They learn by doing; the system can change its behavior.
  •  A stable, simple, deterministic, and predictable behavior system is easily defined. An adaptive design is a special kind of dynamic system.
  • The fine-structure constant is coded (along with other constants) into the universe’s evolvement blueprint. It quantifies the strength of the electromagnetic interaction between elementary charged particles. As a dimensionless quantity, its numerical value is independent of the system of units used. It is the coupling constant that measures the strength of the electromagnetic force. It acts as a governor for how electrically charged elementary particles and light interact.
  • 137 is foundational because it relates to three fundamental domains of physics:1. Electromagnetism is the form of the charge of the electron. 2. Relativity, in the form of the speed of light. 3.Quantum mechanics, in the form of Planck’s constant. 137 is, therefore, foundational for the Grand Unified Theory. The 137 formula brings the three theories of electromagnetism, quantum mechanics, and gravity into a theory of everything.
  • The number 1/137 is immutable (It is a trinitarian physics number). 137 is the denominator of the fine-structure constant. It determines how stars burn, how chemistry happens, and how atoms can exist.
  • 137 equals: All things are triune, with binary interactive (Three in one interacting with two in one). 6 is the sum of 1, 2, and 3.   Without 1/137 in the universe, there would be no life.
  • The number137 unifies relativity, electromagnetism, and quantum mechanics.
  • I always thought it was 42… Turns out it's 137! – Watts Up With That?
  • A molecular machine is an assemblage of parts that transmit forces, motion, or energy from one to another in a predetermined manner. There are millions of these complex machines in nature. Products of this complexity do not come about by a random, undirected process. The Event Originator’s blueprint was used.
  • There are three interrelated approaches to the study of complex systems; (1) how interactions give rise to patterns of behavior, (2) the space of possibilities, and (3) the formation of complex systems through pattern formation and evolution. A complex system has ways of recording information from the environment around it. They have a sophisticated internal causal architecture that stores and processes information. The complex components are constantly either learning or modifying their behavior somehow. These systems create patterns or elements that alter outcomes.
  • Energy atom