The laws of physics in outer space differ from those in our galaxy. The magnitude of changes in the laws of physics in the Universe varies.
Everything in the Universe is binary, both particle and wave. It is a holder of quantum information supplied to it from the fundamental physics level.
This quantum information takes different forms at different times.
This quantum information is stored in a physical system. The system issues instructions to accomplish transformations and tasks, and it performs the build-outs for classic biological physics’ realities. This quantum information instructs and governs how the particles and forces are to operate.
The constructor function of fundamental physics operates the physical transformations and tasks throughout the quantum and classical levels. The constructor function moves information from the fundamental level to the quantum level to establish the initial conditions to start up the classical group. The constructor function decides what to leave in and what to keep out. The quantum constructor information is the blueprint that generates the input for the build-out. Cloning for information is not possible, and the existence of variables becomes paired within the process. Local information that alone is inaccessible becomes entangled so that they can access it. Thus, interoperability is accomplished in this manner.
Super information can not be cloned. Deterministic processes are unpredictable. The states of a quantum system form a continuum, and their dynamical revolution is continuous in both space and time.
In the quantum world, some rules go out the window.
The no-cloning theorem states it is impossible to create an independent and identical copy of an arbitrary unknown quantum state. No-deleting is also in place. Cloned primate cells did not divide properly. Humans are primates.
The energy of virtual particles pops in and out of existence in a flash. Muons do the whip around a magnetic ring, moving at almost the speed of light. Muons, like electrons, have an electric charge and generate tiny magnetic fields. This activity does not fit into the standard model.
Muons have a mass that is over 200 times heavier than an electron’s mass. Muons move slower and emit less radiation. Unknown particles of nature are giving muons an extra push. The Higgs boson is the fundamental particle associated with the Higgs field, a field that gives mass to other fundamental particles such as electrons and quarks.
The standard model needs to be revised. The Higgs boson is an elementary particle in the Standard Model of particle physics.