BioPHYSICAL chemistry

240 PART 2 QUANTUM MECHANICS AND SPECTROSCOPY

Substitution of this into the Schrödinger equation gives:

(db12.6)

Now, multiply by:

r^2 /[R(r)Y(θ,φ)] (db12.7)

The result is:

(db12.8)

The terms with the same variables are grouped, giving:

(db12.9)

The term in the first bracket depends only upon the variable r, whereas the second depends

only upon θand φ, so they must both be constants for the sum to always be a constant.

Let us define the separation constant as such that:

(db12.10)

Then the radial equation becomes:

(db12.11)

Angular solution

The angular part of the equation is:

Λ^2 (θ,φ)Y(θ,φ) =−l(l+1)Y(θ,φ) (db12.12)

We need to substitute the definition for Λ:

(db12.13)

11

2

2

sinθ^2 (,) sin sin

δ

δφ

θφ

θ

δ

δθ

θ

δ

δθ

Y +

⎛

⎝

⎜⎜

⎞

⎠

⎟⎟YYllY(,)θφ=− +( 1 ) (,)θφ

−

+

−

−+

ZZ^22

2

2

0

2

24 m

r

Rr

drRr

dr

er

rE

()

[()]

πε

22

2

10

m

ll()+=

Λ^2

1

(,) (,)

(,)

()

θφ θφ

θφ

Y

Y

=− +ll

−+

−

−

⎛

⎝

⎜⎜

Z^22

2

2

0

2

24 m

r

Rr

rRr

r

er

Er

()

δ[()]

δπε

⎞⎞

⎠

⎟⎟−

⎛

⎝

⎜⎜

⎞

⎠

⎟⎟=

(,)

(,) (,)

Z^22

2

1

mY

Y

θφ

Λ θφ θφ 00

−+

Z^22

2

2

2

1

m

r

Rr

rRr

rY

Y

()

[()]

(,)

(,)(,

δ

δθφ

Λφθφ θφ

πε

)

⎧

⎨

⎪

⎩⎪

⎫

⎬

⎪

⎭⎪

+

−

=

er

Er

2

0

2

4

−+

Z^22

22

2

2

11

m

Y

r

rRr

r

Rr

r

(,) Y

[()]

θφ () ( , )

δ

δ

Λ θφ((,)θφ ()(,) (

πε

θφ

⎧

⎨

⎪

⎩⎪

⎫

⎬

⎪

⎭⎪

+

−

=

e

r

RrYER

2

(^40)
rrY)(,)θφ