Edwin Schrodinger stated that rather than electrons being distributed within an electron configuration of shells and energy levels, they were arranged in orbitals which were systematically distributed within Electron Clouds. He defined an orbital as: The region of space that surrounds a nucleus in which two electrons may randomly move.
This represents the Quantum Model of Electrons, and described more of the chemical phenomena than the simple Particle or Corpuscular Model. De Broglie's wavelength experiments showed that all matter acts as waves, which also meant that electrons themselves were wavelike. In reality, this was true, combined with the fact that electrons are constantly moving, it was clear that electrons could not be correctly given a definite position within the atom, and instead, were given probable regions, which are the Atomic Orbitals described before. Also, he described the four primary types of orbitals, which are the s, p, d and f-orbitals.
Schrödinger's wave equation was based on the Heisenberg uncertainty principal that the position and velocity of a electron cannot be determined accurately (accuracy in one will sacrifice accuracy in another). Schrödinger's wave equation gave a wave function, which squared gave the probability cloud of electrons. Therefore, Schrödinger's contribution resulted in the electron cloud model of the atom.
Schrodinger used mathematical equations to describe the location and energy level of an electron. He developed the quantum mechanics model (the widely accepted atomic model today). He also proposed the wave theory of matter.
His atomic theory. He was the one who thought that there were atoms in everything.
A Schrodinger atomic model doesn't exist; you think probable to quantum mechanics.
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.
In 1869, Dmitri Mendeleev listed the elements in order of increasing atomic weight and grouped elements that seemed to have similar chemical reactions.
was wandering the smae thing but i think they just developed rutherfords theory by doing the gold foil experiment in depth
he didn't democriths did Dalton did first.
Atomic Theory
That the cake is a lie.
Antoine Lavoisier was a French nobleman and chemist. His contribution to the development of the modern atomic theory was his idea of the possibility of an Atomic Mass.
The most important contribution of Werner Heisenberg was the discovery of the uncertainty principle.
Schrodinger, who created the schrodinger's cat theory.
The Nobel Prize in Physics 1933 was awarded jointly to Erwin Schrodinger and Paul Adrien Maurice Dirac for the discovery of new productive forms of atomic theory
he contributed by creating milk
See the link below
The contribution of anyone prior to about 1600 to the development of atomic theory might as well be "nothing whatsoever." Democritus and/or Leucippus contributed the name "atomos", but not much else; they were wrong about nearly every detail. John Dalton is just about the earliest scientist to have had any significant contribution to atomic theory, and most of what we now consider atomic theory was developed since about 1900.
he helped the creator of electrons and the studier of chemistry
He proposed the wave-particle duality for the electrons.