• Quantum physics is the operating software that runs the microscopic, subatomic world. Physicists have identified 57 distinct species of elementary particles. Five percent of the universe is made of visible matter. Ninety-five percent of the universe consists of dark matter and dark energy. The discovery of new forces and particles will lead to new symmetries and undiscovered principles of nature.
  • The three levels of physics are the fundamental level, the quantum level, and the classic level. All forces and particles in the universe are related, and all forces are manifestations of a single grand unified force. There are three families of particles. Each particle is produced in three iterations. All things are triune with binary interactives. There are only five dimensions of space.
  • Dark energy permeates space and accelerates the expansion of the universe. A force field provides particle mass for dark energy. Dark matter does not emit, absorb, or reflect light. Its composition is of an unknown baryonic matter. It controls the rotation of galaxies, clusters, and large-scale structures in the universe. Neutrinos are almost massless particles that travel almost at the speed of light. Neutrinos come in three types or flavors: ALL THINGS ARE TRIUNE WITH BINARY INTERACTIVES.
  • Neutrinos are fundamental subatomic particles similar to an electron. Trillions of neutrinos pass through your body daily from the sun’s nuclear reactions. Neutrinos have no charge. The total matter-energy content of the universe includes invisible dark matter that holds the universe together. Dark energy pushes the universe apart.
  • A singular explosion followed by a burst of inflationary expansion kickstarted the universe. Phase transitions cooled things down. Allowing for the formation of stars, galaxies, and superstructures. The Cosmic Microwave Background (CMB) is light emitted from the hot plasma from the big bang14 billion years ago. Particle interactions affect essential processes in the universe. The matter-energy gaps within the universe are filled with dark matter and a large amount of dark energy. This achieves a matter and energy total that keeps the galaxies, clusters, and superstructures operating correctly. The galaxies and clusters of galaxies contain large quantities of hot gas, which emits x-rays. When supernovas explode, they shine as brightly as their galaxy.
  • High Energy Physics attempts to determine the composition of neutrons, electrons, and protons. Very high-energy experiments are required to take these elementary particles apart. The nuances and vagaries of particle physics produce a lot of dead ends and suspect conclusions. The entirety of the particle zoo has many loose ends. Finding the truth in uncertainty isn’t easy. Publishing to chase funding money can sometimes lead to nowhere land. A new result or anomaly in particle physics inspires dozens of scientific papers trying to explain the result. Sorting things out takes time and money. Theories are often decades ahead of experimental proofs. In the meantime, there is a lot of writing going on. Successfully getting beyond the standard model ain’t easy.
  • The study of quantum field theory and quantum gravity will soon prove that spacetime isn’t fundamental. Quantum theory proves that as wavelengths shrink, their energy grows. Spacetime is controlled by a quantum field and its quantum gravity. Both emanate from the fundamental level of physics.
  • Physics operates on a triune-level basis (fundamental, quantum, and classic).  Three are one, one is three, and everything else is two. All things are triune, with binary interactives.