Relativity Problem Set 9 - Solutions Prof. J. Gerton October 23, 2011
... The expression above yields the domain x where the particle can move in the classical picture. In our case, this domain is the union of the two regions [−a, −b] and [a, b], but not the region [−b, b]. In quantum mechanics instead, the wave function extends in the classically forbidden region as well ...
... The expression above yields the domain x where the particle can move in the classical picture. In our case, this domain is the union of the two regions [−a, −b] and [a, b], but not the region [−b, b]. In quantum mechanics instead, the wave function extends in the classically forbidden region as well ...
Physical Chemistry Born`s interpretation of the wave function
... It is not possible to measure all properties of a quantum system precisely Max Born suggested that the wave function was related to the probability that an observable has a specific value. Often called the Copenhagen interpretation A parameter of interest is position (x,y,z) ...
... It is not possible to measure all properties of a quantum system precisely Max Born suggested that the wave function was related to the probability that an observable has a specific value. Often called the Copenhagen interpretation A parameter of interest is position (x,y,z) ...
