1 The normalized wave function for the hydrogen atom in its ground state is: y= e where ao = 0.529 Å is the radius of the first Bohr orbit. Calculate the most probable value of the distance from the electron to the nucleus in this state, from the first and second derivatives of the probability distribution function. Interpret the physical meaning of the result obtained.
1 The normalized wave function for the hydrogen atom in its ground state is: y= e where ao = 0.529 Å is the radius of the first Bohr orbit. Calculate the most probable value of the distance from the electron to the nucleus in this state, from the first and second derivatives of the probability distribution function. Interpret the physical meaning of the result obtained.
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The normalized wave function for the hydrogen atom in its ground state is: y=
e
Vna
where ao = 0.529 Å is the radius of the first Bohr orbit.
Calculate the most probable value of the distance from the electron to the nucleus in this state, from the
first and second derivatives of the probability distribution function. Interpret the physical meaning of the
result obtained.
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