New Atomic Model with Identical Electrons Position in the Orbital’s and Modification of Chemical Bonds and MOT

The concept of atom has undergone numerous changes in the history of chemistry, most notably the realization that atoms are divisible and have internal structure Scientists have known about atoms long before they could produce images of them with powerful magnifying tools because atoms could not be seen, the early ideas about atoms were mostly founded in philosophical and religion-based reasoning. This first atomic theory explained a lot, but as science continued to advance, new information and new discoveries made it clear that the theory needed to be updated. One of the most remarkable features of atomic theory is that even today, after hundreds of years of research, no one has yet seen a single atom. Some of the very best microscopes have produced images of groups of atoms, but no actual picture of an atom yet exists. How, then, can scientists be so completely certain of the existence of atoms and of the models they have created for them? The answer is that models of the atom, like other scientific models, can be tested by experimentation. Those models that pass the test of experimentation survive, while those that do not are abandoned. The model of atoms that scientists use today has survived and been modified by untold numbers of experiments and will be subjected to other such tests in the future. Even there are so many question arise about the chemical bond, MOT, VBT, VSEPR theory etc. by the existing atomic model. In my new atomic model, I have presented the definite position of electron/electron pairs in the different orbital (energy shells) with the identical distance among all nearby electron pairs and the degree position of electrons/electron pairs with the Center Point of Atoms (nucleus) in atomic structure, also in the molecular orbital. My new model will solve the confusions about MOT, VBT, VSEPR theory thus will explain the proper reasons of chemical bonding and many other unsolved questions of chemical combination and bond dissociation.


Introduction
An atomic theory is a model developed to explain the properties and behaviors of atoms [1][2][3][4]. As with any scientific theory, an atomic theory is based on scientific evidence available at any given time and serves to suggest future lines of research about atoms [5][6][7]. A proponent of the ultimate particle concept was the philosopher Democritus (c.470-c. 380 B.C.), who named those particles atoms. "Near the end of the 18 th century, new ways to conduct experiments helped researchers build their scientific understanding of atoms. This lead to the first atomic theory, which stated things like, all matter is made up of atoms, elements are composed of only one type of atom, and atoms can combine with other atoms to make more complex substances [8][9][10].
One of these new discoveries came at the end of the 19 th century, with the discovery of a subatomic particle, called an electron. When electrons were first discovered, scientists knew they were part of the atom, but they didn't know where they belonged. At first the thought was that electrons floated throughout the atom, like pieces of fruit floating in pudding, as if the atoms were simply soft blobs of matter. But, through more experimentation, it was found that most of the matter within atoms is centralized. By the early 20 th century, this centralized matter came to be recognized as the nucleus of the atom.
The idea that matter is made up of discrete units is a very old one, appearing in many ancient cultures such as Greece and India. The word "atom" was coined by the philosophers Leucippus and his pupil Democritus [2,3]. However, these ideas were founded in philosophical and theological reasoning rather than evidence and experimentation. Because of this, they could not convince everybody, so atomism was

Abstract
The concept of atom has undergone numerous changes in the history of chemistry, most notably the realization that atoms are divisible and have internal structure Scientists have known about atoms long before they could produce images of them with powerful magnifying tools because atoms could not be seen, the early ideas about atoms were mostly founded in philosophical and religion-based reasoning. This first atomic theory explained a lot, but as science continued to advance, new information and new discoveries made it clear that the theory needed to be updated. One of the most remarkable features of atomic theory is that even today, after hundreds of years of research, no one has yet seen a single atom. Some of the very best microscopes have produced images of groups of atoms, but no actual picture of an atom yet exists. How, then, can scientists be so completely certain of the existence of atoms and of the models they have created for them? The answer is that models of the atom, like other scientific models, can be tested by experimentation. Those models that pass the test of experimentation survive, while those that do not are abandoned. The model of atoms that scientists use today has survived and been modified by untold numbers of experiments and will be subjected to other such tests in the future. Even there are so many question arise about the chemical bond, MOT, VBT, VSEPR theory etc. by the existing atomic model. In my new atomic model, I have presented the definite position of electron/electron pairs in the different orbital (energy shells) with the identical distance among all nearby electron pairs and the degree position of electrons/electron pairs with the Center Point of Atoms (nucleus) in atomic structure, also in the molecular orbital. My new model will solve the confusions about MOT, VBT, VSEPR theory thus will explain the proper reasons of chemical bonding and many other unsolved questions of chemical combination and bond dissociation. possibility of uneven number of electrons/electron pairs at any position /side of atomic body can arise that must make any atom unstable. The existing atomic model/atomic structure cannot answer the reasons: 1. Why the similar charged electrons don't feel repulsion among themselves within the same nearby atomic orbital of same atom or even in the molecular orbital when two or more atomic orbital come closer to form molecular orbital within tinier space though there is more possibility of repulsion between similar charged electrons according to existing atomic model.

2.
In case of ionic compound formation problem with the existing atomic model is where the transferred electron will take position in the new location on transferred atom? If the electrons position is not proportionally distributed along total 360 circulating area of atom, then the position of new transferred electron will cause the polarity in every ion (both cation and anion forms by every transformation of electrons) so the desired ionization is not possible thus every atom (ion) would become dipolar. On the point of view any ionization would not possible i.e., no ionic bonded compound would have formed.  (iv) How the attraction force (intermolecular force) acts/ but one of a number of competing theories on the nature of matter. It was not until the 19 th century that the idea was embraced and refined by scientists, as the blossoming science of chemistry produced discoveries that could easily be explained using the concept of atoms [11][12][13].
John Dalton near the end of the 18 th century, two laws about chemical reactions emerged without referring to the notion of an atomic theory. The first was the law of conservation of mass, formulated by Antoine Lavoisier in 1789, which states that the total mass in a chemical reaction remains constant (that is, the reactants have the same mass as the products) [4]. The second was the law of definite proportions. First proven by the French chemist Joseph Louis Proust in 1799 [5] this law states that if a compound is broken down into its constituent elements, then the masses of the constituents will always have the same proportions, regardless of the quantity or source of the original substance.
Dalton proposed that each chemical element is composed of atoms of a single, unique type, and though they cannot be altered or destroyed by chemical means, they can combine to form more complex structures (chemical compounds). This marked the first truly scientific theory of the atom, since Dalton reached his conclusions by experimentation and examination of the results in an empirical fashion [14,15].

Aim and Scope of the Article
Electrons are arranged in different orbital by different numbers in pairs/unpaired around the nuclei. Electrons pairs are associated by opposite spin together to restrict opposite movement for stability in orbital rather angular movements. The structural description is obeyed for the last more than hundred years but the exact positions of electrons/pairs in the energy shells of atomic orbital are not described with the exact locations among different orbital/shells. The existing electrons pair coupling model is not also shown clearly  pairs along with angle position with the center of atomic nucleus within the atomic body.

Atomic body is identified as four different poles
For the better allocation of electron pairs position in the atomic orbital my new atomic model I have distributed first the total atomic area (360° diameter mass area) into four poles (North Pole, South Pole, East Pole and West Pole) in ( Figure 2).

Center point of atom (CPA)
Every atom contains a Center Point situated at the center of the atom (in nucleus), from the point atoms are 360° spreaders around which form the round shape of atom including energy shells. The positive charges (proton) are arranged within or around the CPA.

Center of electron pairs neutralization point (CENP)
This is the pin-point situated in a middle position between two electrons of opposite spin pairs. The point is exactly between of opposite spine electron pairs so how the opposite electronic spin is neutralized to remaining a stable electron pair consisting of two opposite spin electrons. This CENP points are assumed to be situated between the cross section of opposite spine electronic pair's magnetic momentum field diameter ( Figure 3).
CENP has a great role in the atomic association i.e., the similar charged (negative charged) electrons don't feel repulsion among themselves within the near most electron pairs or same orbital or/and different shells within the total atomic body. This mysterious point between opposite electron pair spin is the answer of the question why the near most similar charged electron pairs don't feel repulsion within the orbital in some molecular orbital in molecule. According to magnetic attraction/repulsion characteristics any similar charges repulse or opposite charges attract when the charges energy line is in straight points. If similar charged or opposite charged arise within two nuclei of bonded atoms during molecule formation?
My new atomic model is designed on the basis of the position of electron(s)/electron pairs in the different energy shells including angular position towards the center i.e., nucleus in an/any atomic body which is able solve all the unsolved questions arise in the existing atomic model/structure.

New atomic model
The new proposed atomic model presented in the article is based on the identical position of electrons/pairs around a 360° diametertotal mass area of atoms. The atomic model is based on the exact position of electrons/pairs in the different orbital around nucleus in any atom. The model will also represent definite regular distance with all neighbor electrons/

Electron with downward spin
Electron with upward spin  is able to give logical solution to the problems of ion/ionic bond formation. As follows: The metallic atom which donate electrons during ion formation from outermost orbital, the electrons are arranged maintaining definite degree angle around 360° atomic mass body shown in (Figure 4). After the transformation the transferred electron take position at the vacant place of the transferred atoms outermost orbital, then instant the near most electrons/pairs rearrange their position in the orbital changing their angle position with the CPA due to electromagnetic repulsion feeling among the similar charged electrons/pairs. Thus the ionic atom gets equal electron charge density around whole of their 360° atomic mass body resulting the cation and anion due to the positive and negative charge difference in atomic orbital with their respective nucleus. Thus every ion becomes non polar ion to form ionic bond within two opposite charged ion ( Figure 5).

Modification of covalent bond concept according to new atomic model
Covalent bonds are formed by sharing of electrons between the bonded atoms and the shared paired electrons are formed by contribution of one electron each of the participating atoms. The shared paired electrons remain at the overlapping chamber (at the juncture of the overlapped atomic orbital). The present structural presentation of any molecule it is show that the shared paired electrons remain at the over-end are even close but their center of energy points is not in straight line, there will be no attraction or repulsion between the charges (positive/negative). Similarly, when electrons are arranged in energy shells around the nucleus the electrons remain in pairs within opposite spin electrons where the poses a point which represent as the center of repulsion/attraction points (CENP) and two CENP never come to a straight within the atomic orbital so the similar charged electrons pairs don't feel repulsion within the energy shells. Another reason the CENP of all electron pairs are always straight to the Nucleus for the attraction between Positive Neutrons in Nucleus and negative charged electron pairs (Figure 3). Even with the changed position on the electron pairs around the Nucleus within the circulation atomic orbital the straight position between CENP and nucleus never effected i.e., the electron pairs revolves around nucleus maintaining the CENP straight to nucleus. This new atomic structure's Center of electron pairs neutralization points (CENP) concept gives the clear answer why the similar charged electrons don't feel repulsion force among themselves within same atomic orbital. According to my new atomic model the angular position of electron pairs in different orbital is distributed keeping angular distance from each pair to another with respect to the center point of atom (mid-point of 360° atomic body).

Election's pair position in atomic orbital
The angular distance calculations between different electron pairs among the various Energy Shells (Orbital) of same atoms are calculated using the following rules and the Mathematical Equation (1) (by AzmalMorshed) as follows:  (Figure 6b).

New solution about MOT by the new atomic model
Similar solution can be made for molecular orbital (MOT) as such as: The molecular orbital (MO) theory is described as a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule. Still it is believed that when the molecules formed by sharing electrons, the sharing electrons pair remain in the overlapping chamber (junction of the bonded atoms) shown in (Figure 7a). lapping chamber but there is no presentation about their spin and exact position in the overlapping chamber. According to present structural presentation of shared paired electrons remain at the juncture of the bonded atomic orbital, if they remain like such position they will restrict the Inter Molecular Force (IMF) between the bonded atomic nuclei because the shared paired electron restricts the attraction force lying at the straight attraction line of the bonded nuclei the shown in (Figure 6a). According to the new covalent bond pictorial presentation in light of new atomic model; the shared paired electron making a proper pair by opposite spin along with a CENP and will take place at the joint point (overlapping chamber) in such a way, there will be no restriction on way of attraction (IMF)/repulsion between the bonded nuclei shown (ii) When two atomic orbital's combine to form a molecular orbital, the situation described by VSEPR theory is not satisfactory because it said when two atomic orbital come close to form a molecular orbital there remain repulsion between the opposite charged electrons/electron pairs up to certain extend and the similar repulsion situation turns into attraction forces when the atomic orbital come closer: is a funny description. According to my new atomic model the arrangement of electron pairs in different orbital of any atom are arranged such way that the opposite spine electron pair's attraction/repulsion point Center of  atoms. But in real séance that is impossible because two shared paired electrons cannot remain in a single overlapping chamber because of repulsion among each pairs and among individual electrons. The existing molecule concept hasn't any explanation about how the shared paired electron forms with opposite spin pair with single electrons coming from both of the atomic orbital of Oxygen with a spin. The main problem with the present Oxygen molecular structure is that we know there are a double bond (double bond consist a sigma bond formed by side to side overlapping of the bonded atomic orbital and a pi-bond forms by the head to head overlapping of the bonded atomic orbital) exist between two Oxygen atoms in an Oxygen molecule. The present structure of O 2 molecule show only two pairs of electron with head to head overlapping in the overlapping chamber i.e., two sigma bond together which is impossible (Figure 8a). According to my new given model for Oxygen molecule I have shown that the only a shared paired electrons take place at the overlapping chamber by the combination of opposite spin electrons coming from the different Oxygen atom (b) resulting a head to head overlapped sigma bond. The remaining two opposite spin unpaired electrons in the two bonded Oxygen's outermost orbital getting little distorted towards the shared paired electrons in their respective atomic orbital then they feel an attraction among the opposite spin electrons thus they make a bond pairs by side to side overlapping forms the pi-bond (Figure 8b). The intermolecular force of attraction is (IMF) is clearly maintained by a straight line attraction line through the shared electron pair's CENP according to the new molecular structural presentation. Similar modification is required for few other double bonded molecules (Eg. CO 2 ) following the new concept of molecule structure.

Conclusion
The new atomic model will assist the world to open new windows of knowledge of understanding about different types of chemical bonding, bond strength, electrons charge density (electrons cloud), exact reasons of polarity in compounds, molecule and atoms. The concept is able to explain the reasons of different reactivity of atoms, molecules and The shared pair electrons in the molecular orbital (in the overlapping chamber/junction of the bonded atoms) according to my new model of electron pair where they contain identical CENP (Center of Electron Pairs Neutralization Point). The CENP remain as straight to both nuclei of bonded atoms in molecules. So the CENP (Center of Electron Pairs Neutralization Point) works as the binding points of attraction between two nuclei in a molecular orbital providing facility of attraction force among both the nuclei. The CENP (Center of Electron Pairs Neutralization Point) in the shared electron pairs in a molecular orbital is responsible that the similar charged Nuclei don't feel repulsion force which turns into attraction forces because of the CENP position in the straight line between two CPA (Center Point of Atom) bonded atoms. Ultimately for the absence of electron-electron repulsions between the bonded atoms electron pairs in the same atoms or even with the near most atoms electron pairs in a molecular orbital attraction between bonded atoms electron pairs is the only force between two bonded nuclei is the intermolecular force of attraction (IMF).
According to my new model of atomic structure all the electron(s)/electron pairs CENP (Center of Electron Pairs Neutralization Points) are straight directed always to the nucleus of respected atoms from different angle position around the 4πr 2 total atomic radius. The electron pairs CENP (Center of Electron Pairs Neutralization Points) never come in between or straight to another electron pair CENP. There is no possibility of repulsion between similar charged electron(s)/pair(s) in an atomic orbital (Figure 7b). Similarly, reason arise when two or more atomic orbital come closer to each other for molecule formation any of their electron pairs CENP (Center of Electron Pairs Neutralization Points) never become straight to one another in the molecular orbital (MO) formation.

Modification in double bonded molecular structure
It is shown for an Oxygen molecule; two electron shared pairs are formed and take place at the overlapping chamber result from the outermost orbital of two bonded Oxygen  compounds. The new concept is also capable to answer many unresolved problems in the atomic charge concept, ionization potential, causes of unusual properties in chemical bodings and can elucidate the properties of compounds. I am hopeful that the new atomic model will introduce new horizon in the quantum mechanics acquaintance. Acknowledgement I am highly thanks to my family members and colleagues of Bangladesh University of Textiles (BUTEX) for their endless encouragement. I would like to pay my gratitude to the respected Dean, Faculty of Science and Engineering and to our honorable Vice Chancellor.

Author Contribution
As an author of the article I am declaring that the total works is originally carried me only. There is no conflict with any other's work I know and it was not borrowed or copied from any other works.