I want to pause a moment in between my Memoirs series, its last blog-post The Party and its continuation The Poke-her Game because I have recently been very inspired to write this post. For my BDSM readers, I apologize — it’s almost finished so thank you in advance for your patience. Now to the fascination of Human and Atomic Interactions.

≤ ≤ ≤ ≤ · ≅ · ≥ ≥ ≥ ≥
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Are you familiar with some terms in chemistry? Many? How about covalent compounds, polar covalent compounds, ionic bonds, electronegativity, and electropositivity? These are a few terms that define the interactions between atoms. Is it any surprise we can draw parallels between atomic interactions and human interactions? It’s not difficult. After all, every single one of us are made up of bonds, compounds, and atoms in ever so slightly varied formations. I’d like to share the chemical definitions of the terms mentioned above according to Chemistry-Dictionary.com:

Covalent bonds — 1) chemical bond formed by the sharing of one or more electron pairs between two atoms. 2) atoms linked together by sharing valence electrons.

Polar covalent bonds — 1) covalent bond in which there is an unsymmetrical distribution of electron density. 2) atomic linkage with both ionic and covalent characteristics.

Ionic bonds — atoms linked together by the attraction of unlike charges.

Electronegativity — 1) a measure of the relative tendency of an atom to attract electrons to itself when chemically combined with another atom. 2) a measure of the ability of an atom in a molecule to draw bonding electrons to itself. This is partially determined by how many electron vacancies are available in an element’s filling orbital. The most electronegative elements are the halogens, which have only one vacancy (i.e. have seven electrons in their filling orbital). Sulfur and oxygen are also highly electronegative. 3) a number describing the attraction of an element for electrons in a chemical bond.

Electropositivity — a measure of an element’s ability to donate electrons, and therefore form positive ions; thus, it is opposed to electronegativity. (Wikipedia)

Notice how the exchange or resistance, the charge and intensity of electrons make up much of the interactions between these five chemical states? Would it be beneficial to find applications of these chemical states in everyday life to gain more meaning and purpose? Is it good to understand how things interact, what makes strong or weak bonds and why they react the way they react to each other? I certainly want to understand (and respect!) why ammonia-nitrate does not react well with specific other compounds. Or why nitroglycerin does not react well inside playroom hippity-hop balls or attached to pogo-sticks!

Teflon molecule

I feel it is also equally important to know and understand good helpful bonds and reactions. How many of you are aware of polytetrafluoroethylene and what it helps and prevents? While building the tallest bridge in the world, in southern France, the Millau Viaduct faced some unprecedented engineering obstacles. In the bridging-phase between the seven enormous masts, engineers needed a method of scooting the eight 8,070-ft long, 36,000 ton decks from one mast to the next 890-feet up. It was accomplished by using two huge polytetrafluoroethylene-coated hydrolic-powered opposed wedges in a, albeit only 600-millimeters per cycle,  leap-frog motion. Today, the bridge allows traffic to pass quicker between Paris and Montpellier with no apparent ecological impact to the area.

How about the critical bonds of hydrogen or peptides? How much are these two bonds used? The fact that all humans consist of roughly 63% body fluid, hydrogen bonds are vital to body functions. Peptide bonds are just as vital. All proteins, DNA, RNA, as well as multitudes of other structures use this bond. EMT’s and ER doctors and nurses must be thoroughly trained in these chemical makeups and interactions in order to save and/or rehabilitate patients. It certainly doesn’t hurt non-medical persons to have very basic understandings of these bonds for everyday life.

In my Earth or Physical Science classes we’d often discuss and learn about “Happy Atoms.” Like any of us, most atoms want to be alive and happy. The concept can be summarized this way:  if your atomic shell (mind, body, soul) was full, then you are a Happy Atom. There are atoms (people) with extra electrons. They enjoy giving up or donating their electrons. Other atoms (people) have almost-full shells. They move around seeking out atoms (people) who have extra to give. Prime examples of these interactions are sodium with magnesium, and oxygen with fluorine. When they work together with their electrons, both pairs and multiple pairings can end up happy. Like magnets the positive and negative charges of electrons attract each other. This is when “opposites attract” to form a strong bond. However, as is often the case in many aspects of chemical and life-interactions, not all are “happy bonds.” Why unhappy?

Unhappy bonds can be described as those possessing low, medium, or high energy levels. Taking this description a bit further, managing the increase or decrease of these energy levels can be directly associated with a knowledge-interaction bank, if you will. This bank knows what investments and withdrawals are dangerous and risky, as well as those that are profitable and safe. But there is one and only one factor that the bank cannot inerrantly predict:  How well does each individual customer thoroughly understand their own molecular makeup, their behavior blueprints, or how well or poorly to articulate them. You see, it isn’t enough to understand or attempt to understand only external interactions and dynamics. You, yourself, are just as important as any others in the interactions. How well and how honestly you understand yourself, often… no, equally determines what type of interactions you and others create.

Sir Francis Bacon once said that “knowledge is power.” Power for what? Clearly there are positive life-giving interactions between molecules and organisms, and there are negative ones. These interactions, all of them, and please excuse the intentional dichotomy, are they necessarily unnecessary? Is the knowledge-interaction bank exclusive only to the student? To the teacher? To the classroom of classmates? To one school? And here is perhaps a bigger question:

Is there a necessary or unnecessary learning-curve to understanding life’s interactions?
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We interrupt this program to bring you an important musical and meme message!

In the fields of neurology, pathology, endocrinology, genetics, linguistics, psychology, sociology, even philosophy — is there an interdisciplinary term for these(?) — do these areas perpetually interact or are they completely self-sufficient, self-reliant?

With chemical interactions, many if not most are well understood and predictable, until we humans or the environment create new ones. With human interactions, some… if not more or less… are well understood, until someone or others invent new ones. When these unexpected creations occur, and they inevitably do, how should they be received? Received with instantaneous conclusions or judgements, or with reservation, patience, and time in order to account for margins of error? Perhaps with elements of both? Is there a time to speak your results or a time to quietly wait, to consider, and reconsider? It has been my personal experience that TIME… typically more than what I first imagine, is the wise policy. A policy to suspend or allow for the learning-curve, if for no other reason than to remind myself that in order to gain improved interactions, human or otherwise, this policy also allows for the greatest of virtues and bonds to flourish.

To my readers and followers, what are your thoughts and experiences with interactions and bonds… atomic, chemical, or human? Please share them!

Live Well — Love Much — Laugh Often — Learn Always

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