The new theory of the purpose of evolution and natural selection.

Hello. Dear Mr.
Can you introduce yourself?
How did you find out that I have an article on the purpose of evolution?

The material you sent me was very long and important. I accept them. I accept the scientific method.

But I found a new hypothesis of the fundamental principles of natural selection. I have an article ready for publication.

I can provide a new interpretation of evolution and biology.
I know it is hard for you to accept. But I considered all aspects. And I did tests and thought tests. I came to the conclusion of this new hypothesis. This new hypothesis can be tested based on empirical evidence. This new hypothesis is not just a philosophy and speculation. I want to investigate, test, and analyze this new hypothesis with the cooperation of scientists and specialists in evolution and biology. Abstract

Biologists believe that the purpose of the evolution of all organisms is only to reproduce and successfully transfer genes to the next generation. But I announce the discovery of a new hypothesis that shows that for the successful transfer of genes to the next generation and for the evolution of organisms, certain purposes and principles must be considered and observed in the traits and characteristics of organisms, by natural selection. These biological principles are so fundamental to the survival of organisms that if they are not provided by organisms, organisms can not reproduce and survive. I argue that natural selection chooses to remove harmful genes and preserve beneficial genes based on these principles and biological goals of life. When I speak of the fundamental purposes and principles of natural selection, I do not mean conscious, supernatural, and intelligent creation. Based on the new hypothesis, I express and interpret some of Darwin’s theories of natural evolution and selection, Richard Dawkins’ gene selection theories, and important biological theories in a new way that I discovered myself.

Thank you, very much,

Mohammad Yousef Arbab

در تاریخ شنبه ۱۰ سپتامبر ۲۰۲۲،‏ ۱۳:۵۸ محمد یوسف ارباب <mohammad.yousef.arbab@gmail.com> نوشت:

Sure you’ve got it. But How do you say that so others get it?

Can you explain the fundamental process in a few paragraphs?

My perspective agrees with Max Tegmark’s “Mathematical Universe”, which proposes that all functions in and of the universe lie in the mathematical interactions of individual “relational values”. Dynamism does the rest.

While billions of years of evolution and natural selection have created some of the most complex patterns in the Universe, the secret lies in simple mathematical biochemical processes, such as chirality.

Hi,
can you introduce yourself? How did you know and know that I have a new hypothesis of evolution? are you a hacker?

در تاریخ جمعه ۲۹ ژوئیهٔ ۲۰۲۲،‏ ۲۲:۵۸ Hal via CFI Forums <notifications@centerforinquiry.discoursemail.com> نوشت:

I’m doing my best to present my perspective in its most basic forms.
I let the experts I quote (with links to their site) do most of the talking . They have the knowledge to back up their arguments.

For instance, Bonnie Bassler proposed that quorum sensing in bacteria is probably the earliest form of communication (purely chemical) that has evolved into the multiple ways animals communicate with each other, be it via pheromones, displays of physical prowess, songs, and ultimately verbal language among humans. Note that many animals can be taught to understand and respond to human language .

All of it depends on "comparison " of incoming data against stored data in memory and cognition of specific behavioral patterns that can be expressed in many forms. (body language, sound, smell, color).

Just look at the incredible variety of colors used by plants to attract pollinating insects and the adaptations of color patterns by insects to blend in with plants.

IMO, cognition itself is a mathematical function that results in an experiential response that relies on generic biochemical equations in memory.

Even neuronless single-celled organisms seem to have short-term physical or thermodynamically memory of kinetic pressures or temperature or light.

I am absolutely amazed that these abilities are already expressing themselves at the most fundamental level in the simplest life forms.

How can a “slime mold” solve mazes of extraordinary complexity?
It does so by subtraction, a mathematical function. It fills the maze with its body, then extracts itself from all dead ends leaving a chemical message (dead end) and finally selects the shortest path from several possible paths to reach a food source in the most efficient manner.
It doesn’t know any mathematics, but it employs maths because that is how it has evolved and because it works. It can learn to anticipate timed intervals without a clock, another generic mathematical function.

Vertical growing plants employ the Fibonacci sequence in their leaf and branch growth because it offers maximum exposure to sunlight and offers a perfectly balanced pattern for controlled vertical growth. Can’t have the branches grow on only one side. The plant would fall over and die by natural selection.
The last plant standing employs the Fibonacci sequence or a close approximation and lives to procreate.

That is fantastic. may I have permission to use your words? text me with how you want your credit to read if I can use your words. I will also present to you an online view of how your words are being used for your approval before the work is published.
It will be 3-4 weeks before I get to the part where I want to plug in your comments.

You are too kind! But none of my words are copyrighted.
You are welcome to use any part of my posts. Just mention me as a contributor to the CFI Forum.

Yes, I would love to see how you plan to use my perspectives on another forum.
Thanks.

@ pointpath

Just ran across this fascinating conversation (with illustration) between 5 experts in different biological areas of research.

I had heard rumors of plant intelligence and communication, but this conversation is absolutely essential for understanding the way the earth’s biosphere is organized and interrelated. Just wonderful and entertaining conversation. Well worth the hour of discoveries and insights.

The most sensitive plant Mimosa can learn and become “acclimated” to an irritant as long as the irritant is not actually harmful.