1000 Solved Problems in Modern Physics

(Tina Meador) #1

3.3 Solutions 217


x=rsinθcosφ
y=rsinθsinφ (2)
z=rcosθ

r^2 =x^2 +y^2 +z^2 (3)

tan^2 θ=

x^2 +y^2
z^2

(4)

tanφ=

y
x

(5)

Differentiating (3), (4) and (5) partially with respect tox
∂r
∂x

=sinθcosφ;

∂r
∂y

=sinθsinφ;

∂r
∂z

=cosθ (6)

∂θ
∂x

=

(

1

r

)

cosθcosφ;

∂θ
∂y

=

(

1

r

)

cosθsinφ;

∂θ
∂z

=−

sinθ
r

(7)

∂φ
∂x

=−

(

1

r

)

cosecθsinφ;

∂φ
∂y

=

cosφ
rsinθ

;

∂φ
∂z

=0(8)

Lzψ(r,θφ)=−i

(

x∂ψ
∂y


y∂ψ
∂x

)

=−i

[

x

(

∂ψ
∂r

)

·

(

∂r
∂y

)

+

(

∂ψ
∂θ

)

·

(

∂θ
∂y

)

+

(

∂ψ
∂φ

)

·

(

∂φ
∂y

)

−y

(

∂ψ
∂r

)

·

(

∂r
∂x

)

+

(

∂ψ
∂θ

)

·

(

∂θ
∂x

)

+

(

∂ψ
∂φ

)

·

(

∂φ
∂x

)]

Lzψ(r,θ,φ)

=−i

[

∂ψ
∂r

(

x

∂r
∂y

−y

∂r
∂x

)

+

∂ψ
∂θ

(

x

∂θ
∂y

−y

∂θ
∂x

)

+

∂ψ
∂φ

(

x

∂φ
∂y

−y

∂φ
∂x

)]

(9)

Substituting (2), (6), (7) and (8) in (9) and simplifying, the first two terms drop
off and the third one reduces to∂ψ/∂φ, yielding

Lz=−i


∂φ

(10)

In Problem 3.15 it was shown that the Schrodinger equation was separated
into radial (r) and angular parts (θandφ). The angular part was shown to be
separated intoθandφcomponents. The solution toφwas shown to be

g(φ)=

1


2 π

eimφ

wheremis an integer.
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