(6) n = 3 ~ l = 2 ~ m = -2
-2
Ψ32-2 (r,θ,φ) = R32 (r) Y2 (θ,φ)
R32(r) = (2/27)(2/5)¹/² (z/3a)³/² (zr/a)² exp (-zr/3a)
-2
Y2 (θ,φ) = [15/32π]¹/²(sin²θ) exp(-2iφ)
Ψ32-2 = (2/27)[3/16π]¹/² (z/3a)³/² (zr/a)² (sin²θ) exp[-(zr/3a)-2iφ]
(7) n = 3 ~ l = 2 ~ m = -1
-1
Ψ32-1 (r,θ,φ) = R32 (r) Y2 (θ,φ)
-1
Y2 (θ,φ) = [15/16π]¹/²(sinθ)(cosθ) exp(-iφ)
Ψ32-1 =(2/27)[3/8π]¹/² (z/3a)³/² (zr/a)² (sinθ)(cosθ) exp[-(zr/3a)-iφ]
(8) n = 3 ~ l = 2 ~ m = 0
Ψ320 (r,θ,φ) = R32 (r) Y2º (θ,φ)
Y2º (θ,φ) = [15/16π]¹/² (3cos²θ - 1)
Ψ320 = (2/27)[1/8π]¹/² (z/3a)³/² (zr/a)² (3cos²θ - 1) exp[-(zr/3a)]
(9) n = 3 ~ l = 2 ~ m = 1
Ψ321 (r,θ,φ) = R32 (r) Y2¹ (θ,φ)
Y2¹ (θ,φ) = - [15/16π]¹/²(sinθ)(cosθ) exp(iφ)
Ψ321 =-(2/27)[3/8π]¹/² (z/3a)³/² (zr/a)² (sinθ)(cosθ) exp[-(zr/3a)+iφ]
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