A particle of mass is confined to an infinite potential well of width a. At t=0 the particle's wave function is given by At t = 0 the particle's wave function is given by а a a а Y(x,0)= A -- X 2 10 2 10 = 0 for all other values of x Graph the potential energy function and calculate the normalization constant so that this initial wave function is normalized to unity.
A particle of mass is confined to an infinite potential well of width a. At t=0 the particle's wave function is given by At t = 0 the particle's wave function is given by а a a а Y(x,0)= A -- X 2 10 2 10 = 0 for all other values of x Graph the potential energy function and calculate the normalization constant so that this initial wave function is normalized to unity.
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Transcribed Image Text:A particle of mass is confined to an infinite potential well of width a. At t=0 the particle's wave function
is given by
At t = 0 the particle's wave function is given by
а
а
а
а
+
2
а
Y(x,0)= A
%3D
-
2 10
10
= 0 for all other values of x
%3D
Graph the potential energy function and calculate the normalization constant so that this initial wave
function is normalized to unity.
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