The spherical harmonic Yem, co, 0) is equal to the product OF D²m₂ (a) and $m, (d). The hydrogen atomic wavefunction 15 In turn a product of the radial wave function Rovers and the Spherical harmonic wave function, so that we can write Ymum, (r₂0, 4) = Raver) Yum (0.4) Now Suppose that the following datta is provided D₁ CD)== // e¹ Va e't 3/2 J₁, Ce) = √³/² sine aind Rain (P) = ( ² ) ³1/² - 1/2 (²) ³/²= √ Pe = a Where hr cl quantum number form for the L₁ 3+ a function of r = ja is the Bohr radius and n is the principal write the Yall ware function System, as a function of its Simplest P and also as

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The spherical
harmonic Yem, (0, 0) is equal to the product
OF 1²m₂ (a) and $m, (d). The hydrogen atomic wavefunction is
in turn a product of the radial wave function Rovers and
the Spherical harmonic wave function, so that we can
crite
Youm₂ (r₂₁0, 4) = RmL (1) Yum (0,4)
Now Suppose that the following data is provided
P₁c43=
e
Where
quantum number
=
J ₁ (0] =√√³/₂
11
hr
a ja is the Bohr radius
sine aind Rai (P) = [( ² ) ²³
(²) ³/
I+
form for the Li
a function of r
write the Yaul ware function
System, as a function of
P
ре
- P
2√G
and n is the principal
in its Simplest
and also as
Transcribed Image Text:The spherical harmonic Yem, (0, 0) is equal to the product OF 1²m₂ (a) and $m, (d). The hydrogen atomic wavefunction is in turn a product of the radial wave function Rovers and the Spherical harmonic wave function, so that we can crite Youm₂ (r₂₁0, 4) = RmL (1) Yum (0,4) Now Suppose that the following data is provided P₁c43= e Where quantum number = J ₁ (0] =√√³/₂ 11 hr a ja is the Bohr radius sine aind Rai (P) = [( ² ) ²³ (²) ³/ I+ form for the Li a function of r write the Yaul ware function System, as a function of P ре - P 2√G and n is the principal in its Simplest and also as
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