Chemistry, asked by saty8aKhkommuskaj, 1 year ago

ABOUT QUANTAM MECHANICAL MODEL OF AN ATOM.

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Answered by krushika
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quantum mechanics is based on Schrodinger wave equation and its solution.the solution of wave equation gives the idea of shells,sub shells and orbitals.Application of Schrodinger equation to multi electron atoms presents a difficulty.The Schrodinger equation cannot be solved exactly for a muilty electron atom

Answered by seabird1234
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Quantum mechanics is based on Schrödinger’s wave equation and its solution. The solution of the wave equation brings the idea of shells, sub-shells and orbitals. The probability of finding an electron at a point within an atom is proportional to the |ψ|2 at that point, where ψ represents the wave-function of that electron.

Quantum mechanics is based on Schrödinger’s wave equation and its solution. The solution of the wave equation brings the idea of shells, sub-shells and orbitals. The probability of finding an electron at a point within an atom is proportional to the |ψ|2 at that point, where ψ represents the wave-function of that electron.Application of Schrödinger’s equation to multi-electron atoms present’s some difficulty: Schrödinger’s wave equation cannot be solved exactly for a multi-electron atom. This difficulty was overcome by using approximate methods.

Quantum mechanics is based on Schrödinger’s wave equation and its solution. The solution of the wave equation brings the idea of shells, sub-shells and orbitals. The probability of finding an electron at a point within an atom is proportional to the |ψ|2 at that point, where ψ represents the wave-function of that electron.Application of Schrödinger’s equation to multi-electron atoms present’s some difficulty: Schrödinger’s wave equation cannot be solved exactly for a multi-electron atom. This difficulty was overcome by using approximate methods.The application of Schrödinger wave equation in determining the structure of an atom led to the formation of the quantum mechanical model of an atom.

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