One light-year is about 6 trillion miles. Light travels at a speed of 186,000 miles per second. Our sun is the closest star to us. It is a trip of 93 million miles. Andromeda, the nearest galaxy to our Milky Way, is 2.5 million light-years away. A galaxy can have millions or billions of stars. The universe contains billions of galaxies. Hubble has seen the GN-z11 galaxy. It is 13.4 billion light-years away. That is only 400 million years after the big bang. It is one of the first galaxies ever formed in the universe.
Our neighbor, Andromeda:
Our UFO sightings are violating the speed of light rule, taking shortcuts to get here, or the Communists are just checking out our military hardware. “I come in peace” probably isn’t the intent.
2nd: SCIENCE IS A WAY OF KNOWING AND EXPLORING GOD’S CREATION.
The only explanation for the technology of life is that the Event Originator designed it.
The fundamental level of physics contains the source code for the universe.
There are three levels of physics: fundamental, quantum, and classic. Three are one; one is three; everything else is two.
WE ARE A DATA-DRIVEN UNIVERSE.
All the information needed to birth and run a universe starts at the fundamental level of physics.
Physics moves its coded information from the fundamental level to the quantum level. The quantum level then processes that information and transfers it to the classic group. Every function of physics works in this manner.
The Event Originator wrote the laws of physics in a binary code of zeros and ones, with a triune interface.
This code for the universe results in a triune formulation with binary inter-active bits of information.
Three are one; one is three; everything else is two.
The fundamental level of physics is the information encoder and sender channel for the quantum level of physics. It then receives and decodes that fundamental information, transforms it, and sends it on to the classic status of physics for placement on the reality stage.
First, a fundamental level sender prepares a particle containing the information for the quantum state they want to transmit. Then, they combine this quantum state with an entangled pair of particles. This causes a corresponding change in the other entangled pair, sitting an arbitrary distance away.
At the quantum level, particles can be created or destroyed. This requires energy for particle interactions. These interactions can extend over a distance when particles become entangled. Direct interactions create entanglement between subatomic particles. These interactions can take many forms. One of the most commonly used methods is spontaneous parametric down-conversion to generate a pair of photons entangled in polarisation. The intrinsic properties of quantum mechanics are the quantification of energy (quanta), the wave-particle duality, the uncertainty principle, and the correspondence principle. Electronic transition in atoms corresponds to quantized energy.
Quantum particles can behave like particles in a single place, or they can act like waves that are distributed in remote areas. They hide the nature of fundamental reality from us. Quantum particles can also affect each other instantaneously from far away. Quantum particles have their quantum field. All particles act as excitations that arise from their underlying fields.
The quantum uncertainty principle states that particles can borrow energy from the vacuum for a certain amount of time. When a quantum particle event occurs, it pops up to the classic level, becoming an actor on the classic reality stage.
Quantum chromodynamics (QCD) is the process of a strong nuclear force. Its function is to transmit bosons (gluons) using the strong short-range force to bind quarks together. This process produces protons and neutrons on the classical reality stage. Interaction controls the mass of a fundamental particle with the Higgs boson. The Higgs field provides a drag that varies according to the particle type. Gravity is the only force field that has no particles attached to it.
