22 WESTMAN. STARKE DER SONNENSTRAHLUNG IM MITTELSCHWED. OSTSEEGEBLET IM JAHRE 1912. 



1 



2 



3 



4 



5 



6 



7 



8 



9 





10 11 



12 



13 



April 2 



4*47 m p. 



13°.70 



4.172 



1.061 



1.061 



3 



110 





*0 



762.4 - 0°.6 



1.6 — 



N 2 





5 2 p. 



11 .81 



4.804 



0.996 



0.996 



2 



110 





*0 



62.5 



- .6 



1.6 - 



N 2 





5 6 p. 



11 .30 



5.008 



0.981 



0.981 



2 



110 





*0 



62.5 



- .0 



1.6 — 



N 2 



3 



1 S p. 



34 .95 



1.757 



1.315 



1.316 



5 



220 





*0 



66.6 



+ 5 .2 



2.0 — 



W 2 





1 36 p. 



33 .43 



1.820 



1 .299 



1.300 



5 



220 





*0 



66.5 



+ 5 .2 



2.0 — 



W 2 





2 55 p. 



26 .92 



2.220 



1.214 



1.215 



3 



220 





*0 



66.5 



+ 5 .5 



2.2 — 



W 2 





4 17 p. 



17 .74 



3.281 



1.050 



1.051 



3 



220 





*0 



66.5 



+ 5 .0 



2.4 — 



W 2 





4 47 p. 



14 .03 



4.101 



0.974 



0.975 



3 



220 





*0 



06.5 



+ 5 .0 



2.5 — 



W 2 





5 5 p. 



11 .75 



4.852 



0.897 



0.897 



3 



220 





*0 



66.5 



+ 5 .0 



2.6 — 



W 2 



12 



11 14 a. 



39 .12 



1.581 



1.377 



1 .385 



3 



110 



Cu 



1 



59.7 



.0 



1.7 — 



NNW 1 





11 1!) a 



39 .28 



1.576 



1.381 



1.389 



2 



110 



Cu 



1 



59.7 



.0 



1.7 — 



NNW 1 





1 48 p. 



35 .87 



1.702 



1.276 



1.283 



1 



004 



Cu, Ci 



1 



59.7 



.0 



1.7 — 



NNW 1 





4 5 p. 



. 22 .26 



2.620 



1.018 



1 .024 



2 



004 



Cu, Ci 



4 



60.4 



+ .3 



l.S - 



NNW 1 



13 



9 21 p. 



:{1 .84 



1.899 



1.310 



1.318 



4 



001 



Ci 







03.1 



+ 5 .0 



3.2 — 



NW 1 





1» 20 p. 



32 .62 



1.857 



1.277 



1.285 



3 



001 



Ci 







63.0 



+ 5 .0 



3.3 — 



NW 1 





1 44 p. 



36 .50 



1.681 



1.259 



1.267 



3 



300 



Ci-S, Ci 



1 



61.5 



+ 5 .0 



3.7 - 



N 1 



. 



1 50 p. 



36 .08 



1.698 



1.257 



1.265 



2 



300 



Ci— S, Ci 



1 



61.4 



+ 5 .0 



3.8 — 



N 1 





2 47 p. 



31 .12 



1.930 



1.223 



1.231 



3 



300 



Ci— S, Ci 



4 



01.1 



+ 5 .0 



3.7 - 



N 1 





2 51 p. 



30 .72 



1.956 



1.228 



1.236 



1 



300 



Ci-S, Ci 



4 



61.0 



+ 5 .0 



3.7 — 



N 1 





2 54 p. 



30 .42 



1.976 



1.207 



1.215 



1 



304 



Ci— S, Ci 



4 



61.0 



+ 5 .0 



3.7 - 



N 1 





4 2 p. 



22 .80 



2.570 



0.625 



0.029 



1 



005 



Ci— s 



9 



60.8 



+ 5 .0 



3.6 - 



N 1 





4 4 p. 



22 .56 



2.595 



0.220 



0.221 



1 



005 



Ci— s 



9 



60.8 



+ 5 .0 



3.6 - 



N 1 





4 6 p. 



22 .31 



2.623 



0.305 



0.307 



1 



005 



Ci— s 



9 



60.8 



+ 5 .0 



3.6 - 



N 1 



14 



9 20 a. 



32 .07 



1.888 



1.319 



1.328 



5 



220 



Ci 







63.9 



+ 3 .0 



2.5 — 



NNE 1 





9 42 a. 



34 .11 



1.788 



1.332 



1.341 



3 



220 



Ci 







64.0 



+ 3 .0 



2.5 — 



NNE 1 





10 20 a. 



37 .08 



1.604 



1.346 



1.355 



5 



220 



Ci 







64.1 



+ 3 .8 



2.6 — 



NNE 1 





1 21 p. 



38 .30 



1.022 



1.329 



1.342 



3 



220 



A-Cu,Ci- 



Cu,Ci 1 



65.2 



+ 6 .0 



2.9 — 



NNE 1 





3 4 p 



29 .69 



2.033 



1.261 



1.270 



3 



220 



A— Cu, Ci 



2 



05.1 



+ 6 .2 



3.0 — 



NNE 1 



15 



9 p. 



40 .95 



1.535 



0.730 



0.741 



3 



005 



Ci— S, Ci 



7 



65.4 



+ 10 .4 



3.2 — 



N 1 





IS p . 



40 .87 



1.537 



1.044 



1.052 



3 



005 



Ci— S, Ci 



7 



65.4 



+ 10 .4 



3.2 — 



N 1 





35 p. 



40 .54 



1.547 



0.990 



1.003 



3 



005 



Ci-S, Ci 



7 



65.5 



+ 10 .4 



3.2 — 



N 1 





3 24 p. 



27 .86 



2.149 



0.273 



0.275 



2 



005 



Ci— S, Ci 



8 



65.6 



+ 10 .8 



3.5 - 



N I 



16 



1 17 p. 



39 .21 



1.596 



1.274 



1.284 



3 



004 



Ci 



1 



68.8 



+ 13 .5 



4.6 — 



NW 1 





1 39 p. 



37 .87 



1.644 



1.252 



1.262 



3 



220 



Ci 



1 



68.8 



+ 13 .5 



4.5 - 



NW 1 





2 27 p. 



34 .03 



1.804 



1.162 



1.171 



3 



024 



Ci 



1 



68.7 



+ 14 .0 



4.5 — 



NW 1 





4 50 p. 



17 .00 



3.426 



0.842 



0.849 



3 



025 



Ci— Cu, Ci 



-S 3 



68.6 



+ 13 .8 



4.8 — 



NW 1 



17 



9 p. 



41 .06 



1.522 



1.274 



1.285 



3 



005 



Ci— S, Ci 



6 



70.1 



+ 9 .0 



4.4 — 



W 1 





24 p. 



40 .53 



1.556 



0.952 



0.960 



3 



005 



Ci— S, Ci 







70.1 



+ '.) .0 



4.4 — 



W 1 





3 p. 



30 .46 



1.996 



0.704 



0.710 



5 



005 



Ci— S, Ci 



-t 



i 



69.8 



— 



4.4 - 



SW 1 





3 22 p. 



28 .72 



2.102 



0.650 



0.002 



o 



005 



Ci— S, Ci 



8 



69.7 



— 



4.4 — 



SW 1 





4 10 p. 



23 .07 



2.571 



1.040 



1.049 



3 



005 



Ci— S, Ci 



3 



69.6 



+ 12 .2 



4.5 — 



SW 1 





5 3 p. 



16 .40 



3.550 



0.908 



0.916 



3 



220 



Ci 







69.6 



+ 12 .0 



4.7 — 



SW 1 





5 15 p. 



14 .85 



3.901 



0.756 



0.766 



2 



220 



Ci 







69.6 



+ 11 .8 



4.7 — 



SW 1 



IS 



9 p. 



42 .00 



1.511 



1.233 



1.244 



3 



220 





*0 



69.8 



+ 15 .0 



5.0 39 



SE 1 





23 p 



41 .85 



1.510 



1.250 



1.261 



3 



220 





*0 



69.7 



1-15 .0 



5.0 39 



SE 1 





41 p. 



41 .43 



1.528 



1.268 



1.280 



3 



220 





*0 



69.6 



+ 15 .0 



5.0 39 



SE 1 



Geschätzt.o Werle sind kursiv gedruckt. 



