The Postulates and General Principles

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Presentation transcript:

The Postulates and General Principles of Quantum Mechanics Postulate 1 The state of a quantum-mechanical system is completely specified by a function  (r, t) that depends on the coordinates of the particle and on time. This function, called the wave function or state function, has the important property that  *(r,t) (r,t) dxdydz is the probability that the particle lies in the volume element dxdydz located at r at time t.

Postulate 2 To every observable in classical mechanics there corresponds a linear operator in quantum mechanics.

Postulate 3 In any measurement of the observable associated with the operator Â, the only values that will ever be observed are the eigenvalues a, which satisfy the eigenvalue equation Generally, an operator will have a set of eigenfunctions and eigenvalues, and we indicate this by writing

Postulate 4 If a system is in a state described by a normalized wave function , then the average value of the observable corresponding to Â is given by