Erwin Schrodinger is known for his Schrodinger equation, which describes how the wave function of a physical system changes over time. Louis de Broglie proposed the concept of wave-particle duality, suggesting that particles like electrons can exhibit wave-like properties. Both of these contributions were instrumental in the development of quantum mechanics.
Niels Bohr used math to develop the Bohr model of the atom, which explained the quantized energy levels of electrons and their orbits around the nucleus.
The probability of finding electrons in an atom is determined by the Schrödinger equation, a fundamental equation of quantum mechanics. This equation describes the wave function of the electron, from which the probability density of finding the electron in a particular region of space can be calculated.
When Schrodinger applied his mathematical formulae to the permitted states of an electron in a hydrogen atom, he found they perfectly matched the Bohr Model, which had perfectly predicted hydrogen spectral lines. For Schrondinger, that was good enough for him to publish his work. Max Born later showed that the Schrodinger Equation could be used to accurately predict particle scattering from a nucleus. However, Born showed that this would only work if one assumes that the cross-product of Schrodinger's Wave Function represents the probability of a point charge being in a specific place; something that Schrodinger never accepted.
All matter is composed of atoms. An atom consists of a nucleus (it contains the positively charged neutrons). The electrons orbit the nucleus in a ring, therefore we refer to the electrons as the electron cloud.
Neils Bohr made the ASSUMPTION that electrons could only exist in discrete energy levels when the electrostatic field of a nucleus -- he made no attempt to show WHY this was so. Louis de Broglie postulated that electron movement could be described as a wave, with the wavelength being equal to Planck's Constant divided by the electron's momentum. Starting with this postulate, one can derive that the only permitted radial orbits of an electron are those with a circumference equal to a multiple of these wavelengths. Erwin Schrodinger devised a mathematical formula for which one could derive these energy levels -- and a lot more. As such, Schrodinger's Equation was more fundamental to our understanding of sub-atomic reality. Schrondinger viewed his wave function (more precisely, the product of the wave function) as the charge density of a smeared-out electron. Although you didn't ask, it was Max Born who showed that the wave-function product was, instead, the probability of finding a point-like electron at a specific place and time.
Erwin Schrodinger
Erwin Schrodinger invented the model of the atom based on research done by scientists such as Niels Bohr.
Erwin Schrodinger your welcome :-0
Erwin Schroedinger created his model of the atom in 1926. Schroedinger was an Austrian physicist who won the Nobel Prize in Physics in 1933.
The current picture of the hydrogen atom is based on the atomic orbitals of wave mechanics which Erwin Schrodinger developed in 1926. This model is based on the Schrodinger Equation.
Schrodinger is the author of the well known equation; this equation can describe an atom. That there was a great deal of uncertainty as to where things were and that waves were as important as particles.
Erwin Schrodinger
Niels Bohr used math to develop the Bohr model of the atom, which explained the quantized energy levels of electrons and their orbits around the nucleus.
The Australian scientist, M Vella came up with this model in the late 1900's.
The quantum mechanical model of the atom was developed by Erwin Schrödinger in 1926. His work built upon the earlier discoveries of other scientists, such as Max Planck and Albert Einstein, in the field of quantum mechanics.
The three scientists who played a major role in developing the wave mechanical model of the atom were Erwin Schrödinger, Werner Heisenberg, and Max Born. Their work revolutionized our understanding of the behavior of electrons in atoms.
Erwin Schrödinger proposed the electron cloud model in 1926 as part of the development of quantum mechanics in physics. It is a mathematical model that describes the probability of finding an electron in a particular region of space around the nucleus of an atom.