Through these general contributions and various studies and theories of other physicists and mathematicians, it was possible to solve the dilemma posed by the classical theory that was unverifiable from the experimental tests. In 1927, the German physicists Max Born and Werner Heisenberg contributed the uncertainty principle to Schrödinger's concept of probability , which established that the position and velocity of the electron could not be known simultaneously. Therefore, its exact trajectory could not be known. To the concept of quantum mechanics proposed by Bohr, the non-relativistic quantum model of the Austrian physicist Erwin Schrödinger , in 1926, was added, whose theory considered electrons as standing waves of matter that were likely to be in a certain place or in another. In 1916, the German physicist Arnold Sommerfel optimized Bohr's atomic model that electrons rotate in circular orbits to add that, in addition, they could rotate in more complex elliptical orbits. The classical theory held that an electron (negatively charged) orbiting a nucleus (positively charged) emitted electromagnetic energy, and slowed down until it fell on the nucleus.īut the experimental tests did not show the process proposed by the classical theory. Based on Bohr's model and the work of several other physicists, they managed to solve it. The minimum amount of energy that can be gained or lost at any wavelength is called "energy quantum", hence the expression "quantum leap" to refer to a change in electrons from one energy level to another. This change is associated with a loss or gain of energy.īohr's model was the first to recognize the concept of quantum mechanics in the electronic structure of a hydrogen atom and, in addition, it revealed what the stability of atoms was like .Electrons can jump level or orbit, and this jump can only occur to and from the allowed orbits. For example, an electron that jumps from an outer to an inner orbit loses energy, which is released as a photon or light . If it jumps from an inner to an outer orbit, it gains energy.The orbits have a certain number of electrons, depending on their distance from the nucleus. This scale of distribution is called “electron configurations” and is equivalent to the scale of the periodic table (represented in the order of the rows).Electrons are at defined energy levels and at fixed distances. The orbit closest to the nucleus has lower energy than the orbit furthest from the nucleus, which has more energy.The electrons that surround the nucleus of an atom can be internal or external. Both types of electrons are in circular orbits around the nucleus, but electrons cannot be in all orbits, only allowed ones.In 1897 Joseph Thomson discovered the electron as part of the atom and in 1911 Ernest Rutherford developed a theory about the internal structure of the atom . Niels Bohr was the one who understood and described the organization of these particles called electrons and their distribution in specific orbits around the nucleus of the atom.īohr's atomic model, which was the basis of the current atomic model, explained the stability of matter and the conformation of chemical bonds . Looking at the graphical representation of the Bohr model will make it easier to understand the following characteristics: However, the work of chemist John Dalton towards the end of the Modern Age provided the first scientific approaches that laid the foundations for chemical stoichiometry. In 1803 he put forward his atomic theory that matter was made up of atoms of different structures. The model proposed by Bohr worked to understand the functioning of certain types of atoms , such as hydrogen , but not for others with a more complex structure. However, his model opened the doors to establish the following theories and was the basis of the modern or present-day atomic model .ĭuring the time of ancient Greece it was thought that matter was made up of indivisible principles or elements , that is, they could not be divided into even smaller parts (such as water or air ). Niels Bohr was a Danish physicist who in 1913 proposed a new model to explain the structure of the atom and its behavior through the stability of electrons . For this decisive contribution to knowledge he received the Nobel Prize in Physics in 1922. When \(n_f = 1\), the series of spectral lines is called the Lyman series.We explain what the Bohr atomic model is, its origin and its main characteristics. In addition, the key contributions of this model. Where \(n_i = n_f > n_i\) (in integer steps).
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