Every symmetry of physics laws leads to a conservation law, and every conservation law arises from a symmetry in the laws of physics.
Symmetry is the casual structure built into the creation module. The creation module has a two-way arrow of time built into it. All current information is always passed back into the versatile storage unit. These informational totals can’t be changed or deleted.
The closed sub-atomic quantum system is a duplicate of the macro quantum system. The two systems interact on a binary basis.
ON THE OTHER HAND, #1:
ON THE OTHER HAND, #2:
THE 150-YEAR-OLD FLAWED THEORY:
AFTER 150 YEARS OF TRYING, SCIENCE IS STILL ATTEMPTING TO COME UP WITH A WORKAROUND THAT ELIMINATES A DESIGNER/CREATOR: (GOOD LUCK WITH THAT)
The scientific study of speciation — how species evolve to become new species. Current research in evolutionary biology covers diverse topics and incorporates ideas from diverse areas, such as molecular genetics and computer science.
]Second, biologists ask the most straightforward evolutionary question: “what happened and when?”. This includes fields such as paleobiology, as well as systematics and phylogenetics.
Natural selection is a central concept of evolution. … Natural selection is the process where organisms with favorable traits are more likely to reproduce. In doing so, they pass on these traits to the next generation. Over time this process allows organisms to adapt to their environment.
Natural selection is the process through which populations of living organisms adapt and change. Individuals in a population are naturally variable, meaning they are all different in some ways. This variation means that some individuals have traits better suited to the environment than others.
Macroevolution is an evolution that occurs at or above the level of the species. It is the result of microevolution taking place over many generations. Macroevolution may involve evolutionary changes in two interacting species, as in coevolution or the emergence of one or more brand-new species.
Digital Biology: the study of the fundamental computation performed by biological processes, from gene regulatory systems to ecosystems and neural networks to swarming systems.
THE LAW THAT CONTROLS ALL PARTICLE INTERACTIONS IS THIS:
ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES. THIS IS THE LINKAGE BETWEEN MATTER AND FORCE CARRYING PARTICLES. THE LINKAGE BETWEEN THE PARTICLE ZOO IS CONTROLLED BY FERMIONS AND BOSONS.
THE REALITY OF HOW LIFE FORMS CAME ABOUT ON THIS REMOTE BLUE MARBLE IS THIS: THE EVENT ORIGINATOR WROTE THE CODE, PRODUCED THE BLUEPRINT, AND USED AN EVOLVEMENT PROCESS TO OBTAIN THE REQUISITE RESULT. IT’S ALL JUST A BINARY SOFTWARE.
IT’S ALL ABOUT THE CODE THAT YOU START WITH.
THE DESIGNER/CREATOR’S PROCESS : (recap).
1ST: Write the code, for the upcoming big bang that will create another universe. (One universe does not an infinity make.)
2nd: Write the code for the design and descent for all intended results as the event unfolds. ( One event does not an eternity make).
3rd: Set the event in motion. All things are triune, with binary interactives.
4th: Monitor, fine-tune, adjust, and select out ongoing.
5th: Use DESIGN AND DECENT as the process. Write a separately coded blueprint for the consciousness of the known thought reposers.
6th: It’s not the people, it’s the event.
7th: Harvesting new crops of known thought reposers was the intended result.
Genetic drift (also known as allelic drift or the Sewall Wright effect) is the change in the frequency of an existing gene variant (allele) in a population due to random sampling of organisms. Genetic drift describes random fluctuations in the number of gene variants in a population. Genetic drift takes place when the occurrence of variant forms of a gene, called alleles, increases and decreases by chance over time. These variations in the presence of alleles are measured as changes in allele frequencies. Genetic drift can cause big losses of genetic variation for small populations. … A founder effect occurs when a few members of the original population start a new colony. This small population size means that the colony may have: reduced genetic variation from the original population. New populations that arise from the founder effect clearly have different evolutionary potentials from the original populations. Isolated from other members of the same species, the forces of natural selection shape the different gene pools in different ways, often to fit very different environments.
Gene flow is also called gene migration. Gene flow is the transfer of genetic material from one population to another. Gene flow can take place between two populations of the same species through migration and is mediated by reproduction and vertical gene transfer from parent to offspring.
There are three sources of variation for a given population: mutation, recombination, and immigration of genes. However, recombining by itself does not produce variation unless alleles are already segregating at different loci; otherwise, there is nothing to recombine.
The founder effect is the reduction in genetic variation that results when a small subset of a large population is used to establish a new colony. The new population may be very different from the original population in terms of its genotypes and phenotypes.
The bottleneck effect, also known as a population bottleneck, is when a species goes through an event that suddenly and significantly reduces its population. … The individuals that survive have greatly reduced genetic diversity compared to the original population since fewer individuals mean there are fewer genotypes.
Inbreeding and loss of genetic diversity contribute to extinction risk in small laboratory populations. Inbreeding depression contributes to extinction risk in most wild populations of naturally outbreeding species, and loss of genetic diversity is expected to contribute in the long term.
MUTATIONS:
A mutation is a random change to genetic material. Mutations may be neutral, confer an advantage, or be disadvantageous. Mutations are spontaneous and are the only source of new alleles.
Mutations arise spontaneously at low frequency owing to the chemical instability of purine and pyrimidine bases and errors during DNA replication. Natural exposure of an organism to certain environmental factors, such as ultraviolet light and chemical carcinogens (e.g., aflatoxin B1), also can cause mutations.
