How does the Schrodinger Model of the atom treat electrons?
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∙ 15y agoThe Schrödinger model of the atom treats electrons as wave-like particles rather than as point-like particles in fixed orbits. It describes the behavior of electrons in terms of their probability distribution around the nucleus, known as electron clouds. The model allows for a more accurate description of electron behavior and allows us to predict the energy levels and properties of atoms.
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∙ 16y agoSplitting an atom
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∙ 14y agoC. both particles and waves :D
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∙ 12y agoWaves (rather than particles)
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∙ 14y agoboth particles and waves
Schrodinger proposed a mathematical model of the atom called the quantum mechanical model. In this model, electrons are described as wave functions that predict the probability of finding the electron in a given region around the nucleus, rather than definite paths. He did not offer a visual representation of what the atom physically looked like.
The major models on the structure of the atom include the plum pudding model, proposed by J.J. Thomson, which represents electrons embedded in a positively charged sphere; the nuclear model, proposed by Ernest Rutherford, which suggests that the atom consists of a small, dense positively charged nucleus with electrons orbiting around it; and the quantum mechanical model, which describes the atom in terms of wave functions and probability distributions for finding electrons.
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.
Ernest Rutherford is the scientist who envisioned the atom as a ball of positive charge with electrons embedded in it. This model became known as the Rutherford model of the atom.
A model that illustrates the arrangement of electrons in an atom is the Bohr model or the quantum mechanical model. These models depict the distribution of electrons in different energy levels or orbitals around the nucleus of an atom. Each model helps visualize the structure of an atom and how electrons occupy specific regions around the nucleus based on their energy.
Schrodinger treats electrons as waves.
Erwin Schrodinger's model of the atom suggested that electrons are not particles moving in fixed orbits, but rather described as waves that exist in regions of space around the nucleus called orbitals. The behavior of electrons within these orbitals is governed by mathematical equations known as wave functions.
Erwin Schrödinger is the scientist who developed the quantum mechanical model of the atom. His work introduced the concept of wave functions to describe the behavior of electrons in atoms.
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.
Erwin Schrodinger
Schrodinger proposed a mathematical model of the atom called the quantum mechanical model. In this model, electrons are described as wave functions that predict the probability of finding the electron in a given region around the nucleus, rather than definite paths. He did not offer a visual representation of what the atom physically looked like.
In 1926, Erwin Schrödinger developed a more impressive model of the atom known as the Schrödinger wave equation, which provided a mathematical description of the behavior of electrons in atoms. This model built upon the quantum theory proposed by Max Planck and Niels Bohr, and helped lay the foundation for quantum mechanics.
Erwin Schrodinger your welcome :-0
In Niels Bohr's model of the atom, how are electrons configured?
In Niels Bohr's model of the atom, how are electrons configured?
The model is applied to movement and position of electrons in the atom.
The major models on the structure of the atom include the plum pudding model, proposed by J.J. Thomson, which represents electrons embedded in a positively charged sphere; the nuclear model, proposed by Ernest Rutherford, which suggests that the atom consists of a small, dense positively charged nucleus with electrons orbiting around it; and the quantum mechanical model, which describes the atom in terms of wave functions and probability distributions for finding electrons.