Table 2.5: Boundary Surface Plotting Procedure for H-Atom 2pz Orbital 

Point Nos. Value of r Value of q Value of f Value of |y|
(in atomic unit)		 z = |y| cosq
to be plotted		 y = |y| sinq sinf
to be plotted		 Value of |y|2
(in atomic unit)
1a, 1b 4ao 0° = 0.000 +1.571, –1.571  0.0540  0.0540 0.0000,  0.0000 0.002916
2a, 2b 4ao 10° = 0.175 +1.571, –1.571 0.0532  0.0524 0.0093, -0.0093 0.002830
3a, 3b 4ao 20° = 0.349 +1.571, –1.571 0.0507  0.0476 0.0173, -0.0173 0.002570
4a, 4b 4ao 30° = 0.524 +1.571, –1.571 0.0467  0.0404 0.0234, -0.0234 0.002181
5a, 5b 4ao 40° = 0.698 +1.571, –1.571  0.0414  0.0317 0.0266, -0.0266 0.001714
6a, 6b 4ao 50° = 0.873 +1.571, –1.571 0.0347  0.0223 0.0266, -0.0266 0.001204
7a, 7b 4ao 60° = 1.047 +1.571, –1.571 0.0270  0.0135 0.0234, -0.0234 0.000729
8a, 8b 4ao 70° = 1.222 +1.571, –1.571 0.0185  0.0063 0.0174, -0.0174 0.000342
9a, 9b 4ao 80° = 1.396 +1.571, –1.571  0.0094  0.0016 0.0093, -0.0093 0.000088
10a, 10b 4ao 90° = 1.571 +1.571, –1.571 0.0000  0.0000 0.0000,  0.0000 0.000000
11a, 11b 4ao 100° = 1.745 +1.571, –1.571 0.0094 -0.0016 0.0093, -0.0093 0.000088
12a, 12b 4ao 110° = 1.920 +1.571, –1.571 0.0185 -0.0063 0.0174, -0.0174 0.000342
13a, 13b 4ao 120° = 2.094 +1.571, –1.571  0.0270 -0.0135 0.0234, -0.0234 0.000729
14a, 14b 4ao 130° = 2.269 +1.571, –1.571 0.0347 -0.0223 0.0266, -0.0266 0.001204
15a, 15b 4ao 140° = 2.443 +1.571, –1.571 0.0414 -0.0317 0.0266, -0.0266 0.001714
16a, 16b 4ao 150° = 2.618 +1.571, –1.571  0.0467 -0.0404 0.0234, -0.0234 0.002181
17a, 17b 4ao 160° = 2.793 +1.571, –1.571 0.0507 -0.0477 0.0173, -0.0173 0.002570
18a, 18b 4ao 170° = 2.967 +1.571, –1.571 0.0532 -0.0524 0.0092, -0.0092 0.002830
19a, 19b 4ao 180° = 3.142 +1.571, –1.571 0.0540 -0.0540 0.0000,  0.0000 0.002916

 

Fig. 2.5: Boundary Surface Plot (Using Microsoft Excel) for H-Atom 2pz Orbital