By Henryk Szubinski
research data courtesy of Wikipedia
video courtesy of Youtube
who will ironise your Fe clothes when youre this old
Iron is abundant in biology. Iron-proteins are found in all living organisms, ranging from the evolutionarily primitive archaea to humans. The color of blood is due to the hemoglobin, an iron-containing protein. As illustrated by hemoglobin, iron often is bound to cofactors, e.g. in hemes. The iron-sulfur clusters are pervasive and include nitrogenase, the enzymes responsible for biological nitrogen fixation.(see #Biological role). Influential theories of evolution have invoked a role for iron sulfides, iron-sulfur world theory.
Structure of Heme b, in the protein additional ligand(s) would be attached to Fe.
Main article: Human iron metabolism
Iron is a necessary trace element found in nearly all living organisms. Iron-containing enzymes and proteins, often containing heme prosthetic groups, participate in many biological oxidations and in transport. Examples of proteins found in higher organisms include hemoglobin, cytochrome (see high-valent iron), and catalase.
Iron reacts with oxygen in the air to form various oxide and hydroxide compounds; the most common are iron(II,III) oxide (Fe3O4), and iron(III) oxide (Fe2O3). Iron(II) oxide also exists, though it is unstable at room temperature. These oxides are the principal ores for the production of iron (see bloomery and blast furnace). They are also used in the production of ferrites, useful magnetic storage media in computers, and pigments. The best known sulfide is iron pyrite (FeS2), also known as fool’s gold owing to its golden luster.
The binary ferrous and ferric halides are well known, with the exception of ferric iodide. The ferrous halides typically arise from treating iron metal with the corresponding binary halogen acid to give the corresponding hydrated salts.
Fe + 2 HX → FeX2 + H2
Iron reacts with fluorine, chlorine, and bromine to give the corresponding ferric halides, ferric chloride being the most common:
2 Fe + 3 X2 → 2 FeX3 (X = F, Cl, Br)
basis of a motion complication of motion by heat and pressurisations of the object in motion displaceing by the H2O levels in their (g) state
basically the full values on a frontal value system where the basis of a IRONISATION can displace through the field that keeps its gravity in place as a type vechicularity that defines the force of its complex set value
so that the values can be related to the heat under its surface as well as the surface link of its undersurface
based on the data that links the related to values of the basic smoothness of the types of metals used TEFLON is a basic motivator for the model of similarity in which 2 ironisations functions are set into a race in which the basis of the race winner being the one that has displaced beyond the means of its energy capacity by the measure of its basic level of H2O (f) used and the basis of the amount of heat / 2 so that this value of a 1 heat conductivity along the vector that opposes the motion of the winning ironisation of plasma = the same value that is represented by the course runner having to displace oveer the distance of the universe
being a rough 15 billion light years this will be defined as the bassis of its gravity x ( its weight) x the amount of H2O (f) within it as well as the sybiotic amount of smoothness on its surface
To start with the basics of the IRONISED surface as a motion vechicle will be shown to have its general special theory of relative dynamics making the alterations of heat into work and then work into force or energy by the basics of its vergant front tipp
This will then work to define the amount of force needed to alter the requirement of motion by amount of H2O (p) as the type of smoothness in its basic 1 particle pull on the whole surface of the ironisations value
So that this will compund into greater values of a type reference in relations to basic triangulations of the steering by a plasma particle PULL OR TUGG at each angle of a isoceleese triangle
this then will define the basics of the radial values of interactions of triangles in motion as a unified field of such vector components as ready made force that will interact on a basis of similar motion into the unified field of a surface triangulation in which the field is dispersed into 3 plasma points in any type size surface area
meaning that the smaller the triangles are the greater will be the degree of motion along the surface meaning that the force that causes a turning moment will also useup part of the field in its specific degree of zoom by a force that will basically input into a vechicle as its steering mechnics and the A.I usage of such point triangulations down into the limits of a macrometre or basic minimal size motivators for motion.
The uncertainty is a basic limit on the x = Force by the otions of such trigonometrical areas into a x approach level of 100 % contextuality in the seperations of a triangle based 1 and its 100 % coefficiency so that the value 1 = any value zoom used
and the 100 % boost will define this + the x value started with.