1000 Solved Problems in Modern Physics

3.3 Solutions 225

3.90 With reference to the Table 3.2, the functionψ(r,θ,φ)isthe2pfunction for
the hydrogen atom.

(a)Lz=−i∂φ∂

ApplyingLzto the wavefunction

Lzψ(r,θ,φ)=−i

∂ψ(r,θ,φ)

∂φ

=(−i)(−i)ψ(r,θ,φ)

=−ψ(r,θ,φ)

Therefore, the value ofLzis−

(b)Asitisap-state,l=1 and the parity is (−1)l=(−1)l=−1, that is an

odd parity.

3.91 Lx=i

(

sinφ

∂

∂θ

+cotθcosφ

∂

∂φ

)

(1)

Ly=i

(

−cosφ

∂

∂θ

+cotθ sinφ

∂

∂φ

)

(2)

L+=Lx+iLy=i

(

sinφ

∂

∂θ

+cotθcosφ

∂

∂φ

)

−

(

−cosφ

∂

∂θ

+cotθsinφ

∂

∂φ

)

(3)

Apply (3) to them=+1 state which is proportional to sinθeiφ

L+(sinθeiφ)=i(sinφcosθ+icotθcosφ)eiφ

−(−cosφcosθi+cotθsinφsinθ)eiφ

=i(sinφcosθ−cotθsinφsinθ)eiφ

−(cosθcosφ−cosφcosθ)eiφ= 0

Thus the state withm=2 does not exist. Similarly by applyingL−to the

state withm=−1, it can be shown that them=−2 state does not exist.

3.92 Particles with even spin (0, 2 , 4 ...) obey Bose statistics and those with odd
spin (1/ 2 , 3 / 2 , 5 / 2 ...) obey Fermi – Dirac statistics.
Consider a diatomic molecule with identical nuclei. The total wave function
may be written as
ψ=ψelecζvibρrotσnuc
Letpbe an operator which exchanges the space and spin coordinates.
Nowpψelec=±ψelec
It is known from molecular spectroscopy, that for the ground state it is pos-
itive. Furthermore,Pζvib=+ζvib, becauseζvibdepends only on the distance
of separation of nuclei.
Nowρ=Plm(cosθ)eimφ, whereθis the polar angle andφthe azimuth
angle;ρis represented by the associated Legendre function.