Heisenberg and Schrodinger developed the electron cloud model using quantum mechanical probability functions to determine the the regions, or clouds, in which electrons would most likely be found outside of the nucleus.
B, Quantum Theory!
The model of the atom based on Quantum Theory is often called the "Quantum Mechanical Model" or the "Quantum Model." This model describes the behavior of electrons around the nucleus as probabilistic, rather than in fixed orbits.
Niels Bohr published his atomic theory in 1913...which applied Max Planck's quantum theory to Rutherford's idea of a nuclear structure.... adding the idea of electrons traveling in orbitsaround the atom's nucleus.
In a sense Niels Bohr did by introducing different orbits in which electrons spin around the nucleus. Bohr argued that each electron has a certain fixed amount of energy, which corresponds to its fixed orbit. Therefore, when an electron absorbs energy, it jumps to the next higher orbit rather than moving continuously between orbits. The characteristic of electrons having fixed energy quantities (quanta) is also known as the quantum theory of the atom.
Niels Bohr developed the model of the atom that incorporated quantum theory, known as the Bohr model. This model proposed that electrons orbit the nucleus in fixed energy levels or orbits, explaining the stability of atoms and their emission spectra. His work laid the foundation for modern atomic theory and quantum mechanics.
Schrodinger, who created the schrodinger's cat theory.
Quantum Mechanics was invented by Max Plank - and Einstein had nothing to do with it, in fact Einstein was uncomfortable with Quantum Mechanics for the entirety of his career.
Bohr
Quantum Theory
B, Quantum Theory!
The model of the atom based on Quantum Theory is often called the "Quantum Mechanical Model" or the "Quantum Model." This model describes the behavior of electrons around the nucleus as probabilistic, rather than in fixed orbits.
B. H. Bransden has written: 'Atomic collision theory' -- subject(s): Collisions (Nuclear physics), Scattering (Physics) 'The fundamental particles' -- subject(s): Particles (Nuclear physics) 'Physics of atoms and molecules' -- subject(s): Atoms, Molecules 'Quantum mechanics' -- subject(s): Quantum theory 'Charge exchange and the theory of ion-atom collisions' -- subject(s): Charge exchange, Ion-atom collisions
Niels Bohr published his atomic theory in 1913...which applied Max Planck's quantum theory to Rutherford's idea of a nuclear structure.... adding the idea of electrons traveling in orbitsaround the atom's nucleus.
incorrect
In a sense Niels Bohr did by introducing different orbits in which electrons spin around the nucleus. Bohr argued that each electron has a certain fixed amount of energy, which corresponds to its fixed orbit. Therefore, when an electron absorbs energy, it jumps to the next higher orbit rather than moving continuously between orbits. The characteristic of electrons having fixed energy quantities (quanta) is also known as the quantum theory of the atom.
Niels Bohr developed the model of the atom that incorporated quantum theory, known as the Bohr model. This model proposed that electrons orbit the nucleus in fixed energy levels or orbits, explaining the stability of atoms and their emission spectra. His work laid the foundation for modern atomic theory and quantum mechanics.
Claude Cohen-Tannoudji has written: 'Mecanique quantique' -- subject(s): Quantum theory 'Quantum mechanics' -- subject(s): Quantum theory 'Photons and atoms' -- subject(s): Quantum electrodynamics 'Atom-photon interactions' -- subject(s): Photonuclear reactions, Quantum theory, Statistical physics