Angular functions: Difference between revisions
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| 2 || 2 || dx2-y2 || <math>\frac{1}{4}\sqrt{\frac{15}{\pi}}\frac{x^2-y^2}{r^2}</math> | | 2 || 2 || dx2-y2 || <math>\frac{1}{4}\sqrt{\frac{15}{\pi}}\frac{x^2-y^2}{r^2}</math> | ||
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| 3 || -3 || fy(3x2-y2) || <math>\frac{1}{4}\sqrt{\frac{35}{2\pi}}\frac{(3x^2-y^2)y}{r^3}</math> | |||
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| 3 || -2 || fxyz || <math>\frac{1}{2}\sqrt{\frac{105}{\pi}}\frac{xyz}{r^3}</math> | |||
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| 3 || -1 || fyz2 || <math>\frac{1}{4}\sqrt{\frac{21}{2\pi}}\frac{(5z^2-r^2)y}{r^3}</math> | |||
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| 3 || 0 || fz3 || <math>\frac{1}{4}\sqrt{\frac{7}{\pi}}\frac{(5z^2-3r^2)z}{r^3}</math> | |||
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| 3 || 1 || fxz2 || <math>\frac{1}{4}\sqrt{\frac{21}{2\pi}}\frac{(5z^2-r^2)x}{r^3}</math> | |||
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| 3 || 2 || fz(x2-y2) || <math>\frac{1}{4}\sqrt{\frac{105}{\pi}}\frac{(x^2-y^2)z}{r^3}</math> | |||
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| 3 || 3 || fx(x2-3y2) || <math>\frac{1}{4}\sqrt{\frac{35}{2\pi}}\frac{(x^2-3y^2)x}{r^3}</math> | |||
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Revision as of 15:03, 13 January 2017
real spherical harmonics l m Name Ylm 0 1 s 1 -1 py 1 0 pz 1 1 py 2 -2 dxy 2 -1 dyz 2 0 dz2 2 1 dxz 2 2 dx2-y2 3 -3 fy(3x2-y2) 3 -2 fxyz 3 -1 fyz2 3 0 fz3 3 1 fxz2 3 2 fz(x2-y2) 3 3 fx(x2-3y2)