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WELBERTH WARBLER MARTINS FERREIRA




The collision between the atoms




          What happens when two atoms collide against each other?

         A collision between two atoms does not occur at the level of physical body but the level of electromagnetic field without any physical contact between atomic nucleus and electrons of an atom on the atomic nucleus and electrons of another atom. At the time at as happens the collision, of electromagnetic fields of two atoms, the electron of one atoms is attracted, reciprocally, by the electromagnetic field of another atom (W3) thereby generating the absorption of the kinetic energy that both the atoms have. At the same time at as occurs this absorption of kinetic energy, by fact the electrons are being attracted by the atomic nuclei, the electromagnetic field of one of the atoms repels the core of other atom, thus reflecting a portion of kinetic energy that the atoms have (W2). Simultaneously the electrons of one atom are mutually repelled by electromagnetic field of the electrons of another atom, thereby reflecting another portion of kinetic energy that the atoms have (W1). All collision can be classified collision as elastic or collision plastic. In elastic collisions, by the 3rd law of Newton, all energy received is returned, no permanent deformation of the bodies which are involved in the collision. In this case the deformation is temporary because it exists only during the collision. After the collision the deformation disappears. In a plastic collision, a part of the energy received is absorbed by the body which suffered a collision and the other part of the energy received is reflected back to these bodies. In this case the energy absorbed is not reflected, is dissipated for the other atoms of matter. The deformation of the bodies which are involved in the collision, occur of form permanent. When the electromagnetic fields of atoms if shocking the 3rd law of Newton if associate the law of Coulomb's in a way that causes the reduction of the kinetic energy of atoms.

         W1 = (3rd law of Newton + law of Coulomb) to the force of repulsion that produces electron of an atom on the electron of another atom

         W1 = (3rd law of Newton + law of Coulomb) to the force of repulsion that produces electron of an atom on the electron of another atom

         W2 = (3rd law of Newton + law of Coulomb) for the force of repulsion that the nucleus of an atom produces relation in the nucleus of another atom

         W3 = (3rd law of Newton + law of Coulomb) for the force of attraction that occurs between each electron and the nuclei of atoms.

         W4 = reduction of kinetic energy of atoms so that the kinetic energy, after having reduced its intensity, continues with a value that is greater than the force of static friction which is caused by deformation of the space that the matter realize.

         W1 + W2 - W3 = W4

         When the electromagnetic field of an atom is crashes against the electromagnetic field of another atom, the lines of these fields if move in space suffering thus, a geometric deformation. The resilience that the material possesses, make with that the electromagnetic fields recover the original geometric shape after closed the collision. For this reason, all atomic collision is classified as elastic collision. In a plastic collision, after the occurrence of deformation, the original geometric shape is not recovered.

         The reduction of kinetic energy only happens when a collision is not ideal, in other words, it happens when an atom after collision with another, does not generate the formation of molecule and so little generates a snapshot agglomerate of atoms. The atomic collisions ideals are those which occur so that not happens the reduction of the kinetic energy of atoms. In the ideal collision, the energy received is completely absorbed; no have so the reflection of energy which makes the atoms moves apart from one another. In this type of collision, the atoms, after suffering a collision, will walk together through space with the same kinetic energy they had before colliding with each other. Thus they form molecules of hydrogen atoms moving rapidly through space.

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