iirzec (Mars) 1889 r. spostrzeżenia meteorologiczne. Ząbkomieeo (St. 14). 33 



Barm. sprow. 



io 00= 700 mm -j- 



Termometr suchy 



Termograf 



Wilg. względ. 



Stop. 

 zachm. 



Kierunek i siła wiatru 



. opadu 

 milim 



UWAGI. 





1 



9 





7 



1 



9 1 



Max. 



Min. 



7 



1 



9 





7 



1 



9 



7 



1 



9 







6 

 9 

 5 

 , 1 

 1 



25-7 

 29.0 

 32.1 

 37-6 

 41.1 



27.9 

 29.7 

 33-5 

 38.7 

 41.7 



26.1 

 29.2 

 32.4 

 37-5 

 41.0 



- 6.0 



- 9.8 



- 9.6 

 —181 



- 15.1 



— 1.6 



— 5-0 

 ~ 5-1 



— 1.8 



— 4.1 



—10.2 



— 7.4 



— 7.6 



— 11.6 



11.0 



— 7.0 



— 7.4 



— 7-5 



— 10.8 



J O. / 



— 



— 



100 

 100 

 100 

 100 

 100 



100 

 100 

 100 

 100 

 100 



100 

 95 

 100 

 100 

 100 



100 

 98 

 100 

 100 

 100 



9 

 9 

 9 

 3 

 5 



8 

 6 

 7 

 1 

 1 



2 

 9 

 2 

 1 

 1 



N2 

 W 

 0 

 0 



EN^ 



m 



NW2 



0 



NI 

 NWi 

 0 



NWi 



3.4 

 1.7 

 0.3 

 0.0 

 0.0 



1 1 ^ 



=Cir.NW 

 = u 

 =00 



2 



7 

 4 



3 

 9 



40.6 



40.5 

 36.4 

 32.7 

 35.9 



40.8 

 40.0 

 35-3 

 34.2 

 34.5 



40.9 

 40.4 

 36.4 

 33.4 

 35-4 



—15.6 



- 5.6 

 —14.0 

 —11.2 



— 0.6 



- 0.6 



- 2.3 



- 4.6 

 2.4 



52 



— 5.4 



— 3.8 

 — 



— 2.2 



0.0 



- 6.7 



— 3.9 



— 7-4 



- 3-3 

 1.4 



— 



— 



100 

 100 

 91 

 97 

 96 



100 

 100 

 95 

 57 

 68 



100 

 100 



93 

 100 

 89 



100 

 100 



93 

 85 

 84 



6 



9 

 2 



1 



9 



7 

 8 

 1 

 0 

 4 



9 

 8 

 0 

 7 

 1 



NW^ 

 0 



ES2 

 SI 



0 

 0 



ES3 

 0 



S'^ 



E^ 

 E^ 

 ES3 

 0 

 SI 



0.0 

 0.0 

 0.0 

 0.0 

 0.0 



00 = 

 u = 



= ^Cir.S 



1 



5 

 4 

 9 

 4 



30.7 

 31.2 

 36.5 

 28.9 

 31.5 



28.5 

 34-9 

 32.9 

 28.7 

 29.9 



30.1 

 31.5 

 35.6 

 28.8 

 30.3 



2.6 

 0.8 

 1.0 



— 0.4 



— 6.8 



9.8 

 5.6 

 1.6 



1.0 



— 7.2 



3.6 

 0.2 



— 1.8 



— 0.8 

 — 13-0 



4.9 

 1.7 



— 0.7 



— 0.3 



— 1 0.0 



— 



— 



79 

 06 

 88 

 100 

 89 



64 

 86 

 64 

 94 

 84 



93 

 98 

 92 

 92 

 loo 



79 

 93 

 81 

 95 

 91 



8 

 6 

 9 

 8 

 7 



8 

 8 

 8 

 9 

 6 



8 



9 

 0 

 8 

 5 



SI 



W* 

 N4 



s^ 



SI 



0 



NW3 

 NWi 

 Wi 

 NE2 



0.0 



0.6 



0.0 



0.7 

 0.5 





3 

 8 

 7 

 5 

 5 



39.9 

 33.1 

 31.6 

 30.6 

 23.4 



39.8 

 30.6 

 31-0 

 27-3 

 20.4 



39-3 

 32.8 

 31.1 

 29.5 

 22.8 



—12.4 

 —11.0 



— 1.2 



— 1.8 

 1.6 



— 92 



— 4-5 



— 0.6 

 1.1 

 9.9 



—11.7 



— 3.0 



— 1.1 



— 0.2 

 1.0 



— 11.2 



— 5.4 



— 1.0 



— 0.3 

 3'4 



— 



— 



92 

 93 

 92 

 96 

 69 



84 

 93 

 100 

 79 

 59 



78 

 96 

 100 

 92 

 72 



85 

 94 

 97 

 89 

 67 



7 

 6 

 7 



9 

 9 



8 

 8 

 9 

 9 

 3 



0 

 8 

 9 

 1 

 9 



0 

 0 



S3 



S2 



0 



W* 

 0 



S2 

 S2 



0.5 



2.0 



1.8 



2.0 

 0.0 





8 

 9 

 9 

 5 

 3 



15.8 



26.9 

 37.6 

 38.5 

 34.7 



18.1 

 31.9 

 38.5 

 37.7 

 33.3 



16.9 

 27.9 

 37.6 

 38.6 

 34.4 



5-2 

 1.4 

 — 2.6 

 1.8 

 3.4 



7.6 

 6.6 

 1.3 

 7.8 

 6.6 



3.6 

 — 0.2 

 1.6 

 4.8 

 5.2 



5.0 

 1.9 

 0.5 

 4.8 

 5.1 



— 



— 



95 

 96 

 83 

 91 

 90 



88 

 71 

 70 

 62 

 87 



88 

 89 

 82 

 81 

 95 



91 

 85 

 78 

 78 

 91 



9 

 9 

 3 

 8 

 9 



9 

 8 

 2 

 8 

 9 



9 



9 

 8 

 9 



0 



W4 



S^ 

 W* 



{} 



44 



1.0 

 0.0 

 0.1 



0.2 



m 



=® 



Cir.NW 

 ®Cir.NW 



3 



!9 



6 

 9 



0 



9 



27.6 

 24-3 

 34.6 

 30.3 

 28.1 

 32.0 



25.9 

 26.4 

 36.7 

 32.0 

 28.5 

 32.0 

 * 



27.6 

 24.9 

 34-0 

 33.1 

 28.2 

 31.6 



5.6 

 3.6 



— 0.8 



— 2.2 

 1.4 



— 1.6 



131 



3.2 

 05 

 1.4 

 4.4 

 1.8 



7.0 

 1.9 



— 1.8 

 0.5 

 2.9 



— 2.2 



8.2 

 2.6 



— 1.0 



— 0.1 

 2.9 



— 1.1 



Z 







88 

 97 

 73 

 96 

 96 

 80 



69 

 97 

 82 

 74 

 90 

 ó4 



91 

 98 



100 

 90 

 88 



100 



83 

 97 

 85 

 87 

 91 

 81 



8 

 9 

 9 

 6 

 9 

 6 



4 

 9 

 9 

 9 

 9 

 4 



8 

 9 

 4 

 9 

 8 

 1 



AT 4 



N2 



N* 

 N3 

 NI 

 N2 



NE^ 

 ^ NI 

 0 



0.0 



0.7 



2.1 



1.7 



1.1 



0.0 



=Cir.SW 

 Civ NW 



2 



32.2 



32.3 



32.2 



— 3.9 



1.4 



— 2.2 



- 1-7 







92 



83 



93 



89 



7 



6 



6 









24.8 





JLesmieris. (St. 15). 





1 



9 





7 



1 



9 





Max. 



Min. 



7 



1 



9 





7 



1 



9 



7 



1 



9 





Uwagi. 



1 



44.8 



45.4 



44.8 



— 12.1 



— 8.1 



— 5.5 



- 7.8 





5.5 



— 13.0 



89 



94 



96 



93 



10 10 



10 



W 



NE2 



El 



0.6 





2 



47.1 



46.2 



46.5 



- 6.3 



- 5.5 



— 5-9 



— 5.9 





4.8 



— 6.6 



90 



85 



90 



88 



1010 



10 



NEi 



NE' 



NI I 







8 



47 6 



50.2 



48.2 



- 6.9 



— 5.3 



—11.9 



— 9.0 





3.5 



—11.9 



94 



85 



100 



93 



10 



10 



0 



NI 



Wi 



SI / 



11.6 





5 



55.3 



56.3 



55.0 



—10.5 



— 5.5 



—11.3 



— 9.7 





4.0 



— 12.0 



93 



85 



93 



90 



9 



7 



0 



SI 



El 



SEi 



0.0 



u 



;3 



58.9 



59.2 



58.8 



—10.5 



- 6.5 



—13.1 



—10.8 





6.5 



— 14.0 



93 



90 



93 



92 



10 



0 



0 



SEi 



W 



SEi 



0.0 





2 



59.0 



59.0 



59.1 



— 16.7 



- 8.9 



— 8.1 



— 10.4 





5-7 



— 16.7 



90 



88 



94 



91 



4 



9 



5 



El 



W 



El 



0.0 





+ 



58.1 



57.4 



58.0 



— 5.1 



— 1.1 



— 4.9 



— 4.0 





0.8 



— 8.1 



96 



86 



95 



92 



10 



9 



10 



NE^ 



W 



El 



0.0 



= u 



4 



53.8 



51.9 



53.7 



—16.5 



- 3.6 



—12.1 



— 11.1 





1.6 



—16.6 



90 



84 



70 



81 



0 



0 



0 



W 



SE2 



El 



0.0 





2 



49.4 



49.6 



49.7 



— 9.3 



— 3.1 



— 1.3 



— 3.7 





0.8 



— 12.1 



94 



82 



76 



84 



0 



0 



6 



SE3 



SE2 



S^ 



0.0 





3 



51.4 



51.4 



51.4 



1.1 



55 



1.3 



2.3 





6.1 



— 2.3 



92 



79 



87 



86 



10 



8 



6 



SI 



SI 



SI 



0.0 





? 



46.4 



44.1 



46.2 



1.3 



4.4 



3.3 



3.1 





4.7 



— 1.3 



78 



76 



85 



80 



6 



10 



4 



SEi 



SE2 



SEI 



0.0 





4 



47.4 



51.3 



47.7 



2.7 



2.9 



0.5 



1.7 





3.5 



0.5 



89 



86 



89 



88 



9 



10 



10 



SWi 



NWi 





0.0 





3 



51.5 



47-4 



507 



— 1.1 



2.1 



— 0.7 



— 0.1 





2.5 



— 1.4 



88 



78 



88 



85 



8 



3 



4 



NW2 



SWi 



SW2 



0.0 





5 



41.9 



45.2 



42.9 



1.1 



0.7 



— 2.4 



— 0.7 





1.2 



— 2.4 



96 



92 



89 



92 



10 



10 



10 



SW2 



NW3 



N3 \ 



6.3 





9 



50.4 



51.9 



50.1 



— 9.1 



— 10.1 



— 11.1 



—10.3 





2.4 



—11.5 



94 



93 



93 



93 



10 



8 



5 



NW3 



W 



w ] 







5 



57.7 



55.4 



56.9 



—14.6 



-10.3 



— 10.7 



— 11.6 





7.5 



—14.7 



91 



73 



94 



86 



0 



0 



3 



NE3 



NW2 



SWi 



0.0 





2 



44-9 



42.5 



44.9 



— 5.5 



— 1.0 



0.7 



— 1-3 





0.7 



~l 1.0 



80 



92 



89 



87 



10 



10 



10 



SW3 



W3 





1.7 







46.5 



48.1 



46.5 



— 1.5 



0.1 



— 2.9 



— 1.8 





0.7 



— 3.0 



92 



74 



87 



84 



10 



3 



3 



NW2 



NW3 



0 



0.0 





2 



47.6 



43.3 



46.4 



— 5.1 



2.0 



0.9 



— 0.3 





2.5 



— 5.7 



90 



66 



82 



79 



3 



3 



8 



El 



El 



SEI 



0.0 





4 



38.8 



35.0 



38.1 



0.9 



6.6 



4.9 



4.3 





7.6 



0.0 



85 



67 



71 



74 



7 



9 



6 



SI 



SI 



SI 



0.0 





3i3 



30 6 



31.2 



31.4 



4.3 



6.1 



1.5 



3.3 





6.3 



1.5 



80 



88 



89 



86 



9 



10 



10 



SI 



S2 



SW2 . 



1.8 



• 



3^ 



43.1 



49-7 



44.2 



1.1 



0.9 



— 1.7 



— 0.4 





1.5 



— 1.7 



92 



92 



88 



91 



10 



10 



3 



NW2 



NW2 



w 



2.4 





5 7 



51.7 



53.6 



52.7 



— 3.3 



0.5 



0.9 



— 0.2 





1.0 



— 4.0 



85 



78 



82 



82 



5 



10 



6 





W3 



NW3 



0.0 





5 \ 



52.1 



51.4 



52.3 



1.9 



4.9 



3.3 



3.3 





5.0 



0.0 



86 



79 



97 



87 



7 



10 



10 





W2 







m 



42 



48.4 



47.6 



48.4 



2.9 



5.0 



3.9 



3-9 





5.0 



2.5 



96 



97 



97 



97 



10 



10 



10 



Wi 





SWM 



6.0 



m= 



^3 



43.4 



43.0 



43.8 



3-9 



8.7 



5.5 



5-9 





9.5 



3.0 



97 



86 



94 



92 



10 



9 



10 



S' 



Wi 



0 1 





©= 



4|3 



42.5 



44.8 



43.3 



1.9 



3.9 



1.8 



2.3 





5.5 



1.8 



98 



92 



88 



93 



10 



10 



10 



N2 



w 



w 



0.3 



•= 



4h 



51.6 



53.7 



51.3 



0.2 



3-5 



0.3 



1.1 





3-5 



— 0.5 



81 



60 



81 



74 



9 



8 



7 



W 



w 



N3 



, 0.0 





5 3 



50.3 



46.4 



49.7 



— 0.7 



1.7 



1.3 



0.9 





1.7 



— 2.0 



92 



85 



96 



91 



4 



10 



10 





NW2 



0 



0.7 



4 i 



44.1 



45.7 



44.Ó 



0.9 



3.7 



0.5 



1.4 





5.5 



0.5 



89 

 86 



80 



89 



86 



10 



9 



2 





NWi 



w 



0.0 





4 3 



484 



49.4 



48.5 



— 0.9 



1.8 



— 0.5 



0.0 





2.5 



— 2.0 



69 



85 



80 



7 



6 



0 



w 



NW2 



E' 



0.0 





4 3 



48.6 



48.6 



48.6 



~ 3.6' 



— 0.1 



~ 2.3 



— 2.1 





1.1 



— 5.3 



90 



83 



89 



87 



8 



7 



6 









31-4 





] m. Fizyj. Tom X. Dział I. -— 5. 



