The Schrödinger equation is the fundamental equation of nonrelativistic quantum mechanics. As with any equation in physics, its validity relies on experimental verification of the predictions of the equation. So far, it appears that there are no experiments that are inconsistent with quantum mechanics. As you shall see, it is not always easy to test the predictions of the Schrödinger equation. In other words, mapping out the probability distribution associated with a quantum system can represent a formidable task. Moreover, quantum mechanics is far from a complete theory since it does not address the dynamic evolution of the wave function when a measurement is made. Nevertheless, the success of the Schrödinger equation in describing the wave nature of matter and the energy level structure of atoms, molecules, and solids is beyond question.
CITATION STYLE
Berman, P. R. (2018). Free-Particle Schrödinger Equation: Wave Packets (pp. 53–67). https://doi.org/10.1007/978-3-319-68598-4_3
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