A: a wave equation for Electromagnetic waves.
B: a wave equation for photons.
C: a differential equation for the time evolution of position.
D: the relativistic version of Newton’s second law equation.
E: a wave equation for non-relativistic electrons.
举一反三
- Ψ in the<br/>Schrödinger equation is ( ) A: wave<br/>function B: probability<br/>density C: radial<br/>wave function D: angular<br/>wave function
- The Schrödinger equation is as fundamental to quantum mechanics as Newton's laws are to mechanics.
- Which of the following statement about Time-independent Schrödinger equation is not true? A: It is satisfied by a wave function that is an eigenfunction of the Hamiltonian of the system. B: Any solution of this equation corresponds to a physically acceptable state of the system. C: An eigenvalue may correspond to several linearly independent eigenfunctions. D: Energy levels represent eigenvalues of this equation.
- The solution of the differential equation with arbitrary constants is called the general solution of the differential equation.
- The solution of the differential equation with arbitrary constants is called the general solution of the differential equation. A: 正确 B: 错误
内容
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Spherical polar coordinates are used to solve the Schrödinger equation for a hydrogen atom because A: the Laplacian operator has its simplest form in spherical polar coordinates. B: Cartesian coordinates would give particle-in-a-box wavefunctions. C: the Schrödinger equation is then separable into 3 ordinary differential equations. D: otherwise the atomic orbitals would violate the Pauli exclusion principle.
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There is a second solution to this equation of which there are several forms.
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Matlab命令dsolve('equation', 'condition', 'v')中的参数equation表示()。
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This function(函数) does satisfy the given differential equation(微分方程).
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The eigenvalue problem for the Schrödinger equation [img=324x61]18034571f1a03d4.png[/img] has solution for all [img=36x20]18034571fa6baec.png[/img].