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According to the modern theory of quantum mechanics the electrons have a vibrating wave character and hence uncertain positions.Sometimes,they are close to the nucleus and sometimes away from it.Thus we can say that the paths of motion of electrons around the nucleus are not definite
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What is the name of atomic model in which electrons are treated as waves?
The quantum mechanical model is the name of the atomic model in which electrons are treated as waves.
The quantum medanical model is called the?
The quantum mechanical model is called the quantum theory.
How does the quantum-mechanical model differ from Bohrs model?
Bohr's model explains how electron transitions cause hydrogen's atomic emission spectra. The quantum model is a 3-d view of the atom, which shows an electron's energy levels and sublevels and the probability of an electron's location, proven with complex mathematics.
What is the order that these were developed 1 Planetary model 2 Quantum mechanical model 3 Solid sphere model?
Solid sphere model Planetary model Quantum mechanical model
Can you put these in order 1 Planetary model 2 Quantum mechanical model 3 Solid sphere model?
Solid sphere model Planetary model Quantum mechanical model
What is the name of atomic model in which electrons are treated as waves?
The quantum mechanical model is the name of the atomic model in which electrons are treated as waves.
What is the currents model of the atom called?
The Electron Cloud model
The quantum medanical model is called the?
The quantum mechanical model is called the quantum theory.
How does the quantum mechanical model of the atom describes the electron structure of an atom?
The Quantum Mechanical model of the atom states that the location of the electrons around the atom cannot be precisely determined. The region where the electron can probably be found is known as the electron cloud.
What is the name of Schrodinger atomic model?
The Schrödinger atomic model is known as the Quantum Mechanical Model or the Wave Mechanical Model. It describes electrons in atoms as standing waves guided by probability equations rather than fixed circular orbits.
How does the quantum-mechanical model differ from Bohrs model?
Bohr's model explains how electron transitions cause hydrogen's atomic emission spectra. The quantum model is a 3-d view of the atom, which shows an electron's energy levels and sublevels and the probability of an electron's location, proven with complex mathematics.
What is the order that these were developed 1 Planetary model 2 Quantum mechanical model 3 Solid sphere model?
Solid sphere model Planetary model Quantum mechanical model
Can you put these in order 1 Planetary model 2 Quantum mechanical model 3 Solid sphere model?
Solid sphere model Planetary model Quantum mechanical model
What is another name for the quantum mechanical model of an atom?
Well, the conventional system of quantum mechanics can also be known as the Standard Model of Particle Interaction, or the Standard Model for short.
The model of the atom based on Quantom Theory is often called what?
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.
What year was the quantum mechanical model established?
1913
What are the energies and positions of electrons according to the quantum mechanical model?
In the quantum mechanical model, electrons exist in defined energy levels or shells around the nucleus, characterized by quantum numbers that describe their energy, shape, and orientation. Instead of precise orbits as in the classical model, electrons are found in probabilistic regions called orbitals, where their positions are described by wave functions. These orbitals indicate the likelihood of finding an electron in a particular region of space at any given time. The energies of electrons are quantized, meaning they can only occupy specific energy levels, which are determined by the electron's interactions with the nucleus and other electrons.
