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.
The Schrödinger equation is ( ) 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.
The Schrödinger equation is ( ) 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.
The solution of the differential equation with arbitrary constants is called the general solution of the differential equation. A: 正确 B: 错误
The solution of the differential equation with arbitrary constants is called the general solution of the differential equation. A: 正确 B: 错误
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.
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 entropy of a system can be evaluated by Boltzmann equation.
The entropy of a system can be evaluated by Boltzmann equation.
Matlab命令dsolve('equation', 'condition', 'v')中的参数equation表示()。
Matlab命令dsolve('equation', 'condition', 'v')中的参数equation表示()。
The simultaneous increase of assets and liabilities will certainly affect the accounting equation.( )
The simultaneous increase of assets and liabilities will certainly affect the accounting equation.( )
The basic Accouting equation is: .
The basic Accouting equation is: .
The basic accounting equation is .
The basic accounting equation is .
The Fisher equation states that _________
The Fisher equation states that _________