gęrwiec (Juin) 1890 r. spostrzeżenia meteorologiczne. Mlodziessyn (St. 4). 73 



Barm. sprow. 



do 0° = 70.) mm^- 



Termometr suchy 



Termograf 



Wilg. względ. 



Stop. 

 zachm. 



Kierunek i siła wiatru 



opada 1 ' 



TT w A P T 



7 



1 



9 





7 



1 ' 



9 





Max. 



Min. 



7 



1 



9 





7 



1 



9 



7 



1 



9 





52.4 

 50.5 

 54.6 

 58.5 



56.0 



52.2 

 50.6 

 551 

 57.2 

 55.2 



52.1 

 53.4 

 56.f) 

 57.2 

 54.8 



52.2 

 51.5 

 55.4 

 57.6 

 55.5 



12.8 

 11.6 

 17.4 

 15.0 

 21.4 



15.6 

 15.4 

 17.6 

 23.2 

 23.8 



10.2 

 9.8 

 15.2 

 17.2 

 20.8 



1 2.2 



11.6 



16.3 

 18.1 

 21.7 



18.0 

 17.0 

 20.0 

 28.0 

 26.0 



2.0 



3.0 

 0.0 

 7.0 

 12.0 



75 

 71 

 76 

 81 

 78 



60 

 53 

 74 

 78 

 74 



79 

 82 

 70 

 96 

 72 



71 

 69 

 73 

 87 

 75 



1 



8 

 0 

 10 



2 



6 

 9 

 8 

 10 

 10 



2 

 2 

 4 

 7 



10 



0 

 0 

 0 

 0 



w 



Wi 

 WNi 



0 



0 



WN^ 

 WS' 

 Wi 

 0 



El 



0.0 

 0.0 

 0.0 

 0.0 

 0.0 





53.4 

 48.9 

 47.9 

 50.9 

 51.1 



52.1 

 47-5 

 48.2 

 52.2 

 49.8 



51.1 

 47.6 

 49.0 

 52.2 



50.2 



52.2 

 48.0 

 47.7 

 51.8 

 50.4 



20.4 

 23.6 

 13.5 

 11.6 

 12.0 



24.4 

 21.0 

 15.8 

 12.8 

 13.6 



20.8 



18.2 



13-2 



108 



11.4 



21.6 

 20.2 



13.9 

 115 



12.1 



27.0 

 26.0 

 16.0 

 16.0 

 14.0 



13-0 

 14.0 

 12.0 

 9.0 

 6.0 



74 

 70 

 92 

 80 

 34 



80 

 75 

 85 

 82 

 85 



77 

 78 

 91 

 95 

 91 



77 

 74 

 89 

 86 

 87 



7 

 0 

 10 

 10 



8 



4 

 9 

 10 

 10 

 10 



5 

 10 

 8 

 6 

 10 



El 

 0 



0 



WSI 

 0 



WNi 

 WSI 



W2 



WSI 

 WSI 



0.0 



2.2 



8.2 

 0.1 



1.1 



• 



9 

 • 



m 



49-7 

 48.0 

 44.6 

 44.8 

 50.7 



49.0 

 46.6 

 44 3 

 45.7 

 52.3 



48.7 

 46.0 

 44.7 

 47-3 

 53 3 



49.1 

 46.9 

 44.5 

 45-9 

 52.1" 



15.0 

 15.2 

 17.4 

 14 6 

 12.8 



22.2 

 22.4 

 20.2 

 194 

 15.8 



15.6 

 19.6 

 146 

 15.8 

 13.6 



17.1 



19.2 

 16.7 

 16.4 

 13.9 



23.0 



23-0 

 21.0 

 21.0 

 16.0 



lo.o 



10.0 

 1 1.0 

 10.0 

 10.0 



89 

 98 

 90 

 93 

 75 



74 

 81 



80 

 74 

 54 



93 

 92 

 93 

 91 

 85 



85 

 90 

 88 

 86 

 71 



6 

 10 

 8 

 8 

 6 



4 

 10 

 6 

 9 

 4 



5 

 10 

 7 

 8 

 2 



WS' 

 ESI 

 ESI 

 E^ 



WN2 



WSI 

 0 



S2 



WN3 



w 



0 



SI 

 WN2 

 WN2 



0.0 

 2.5 

 6.0 

 0.0 

 2.5 



m 

 m 



• 



54-6 

 53 5 

 48.1 

 50.9 

 50.9 



53-6 

 53-1 

 4Ó.4 

 50.7 



51r4 



53.7 

 51.9 

 47.9 

 50.8 

 56.4 



53.9 

 52.8 

 47.5 

 50.8 

 52.9 



1 1.8 



14.4 

 20.0 

 13-0 

 12.8 



18.4 

 16.2 

 17.8 

 17-0 

 15-8 



16.0 

 13.8 

 15.2 



12.Ó 

 11.0 



15.5 



r 14-5 

 17.0 

 13.8 

 12.6 



20.0 

 20.0 

 22.0 

 18 0 

 17.0 



5.0 



8.0 

 10.0 

 9.0 



lo.o 



81 

 81 



74 

 89 

 96 



59 

 81 

 78 

 76 

 91 



83 

 85 

 81 

 93 

 95 



74 

 82 

 78 



86 

 94 



3 

 8 

 6 

 10 

 10 



2 



7 

 9 

 10 

 8 



6 

 4 

 6 

 0 

 4 



WNi 



WX3 



W2 



WS2 



ws^ 



WN2 

 WSI 

 WSI 

 WNi 

 0 



0.0 

 0.0 

 0.0 

 2.3 

 2.8 



m 

 • 



54.0 



54-3 

 53-4 

 53-4 

 53.2 



53.4 

 53.0 

 53.8 

 53.3 



50.2 



54-4 

 53.8 

 53.7 

 53.2 

 54.9 



54.2 

 53.7 

 53.6 

 53.3 

 52.8 



14.2 

 14.6 

 14-0 

 17.2 

 16.0 



20.6 

 21.0 

 17-0 

 ■ 20.2 



20. 2 



14.8 



16.2 

 15-8 

 15.6 

 16.6 



16.1 

 17.0 

 15-6 

 17.1 

 17.4 



22.0 

 21.0 

 22.0 

 23-0 

 21.0 



1 0.0 



13-0 

 11.0 

 8.0 

 10.0 



87 

 93 

 94 

 80 

 85 



61 

 67 

 78 

 71 

 69 



91 

 91 

 85 

 91 

 94 



80 

 84 

 86 

 81 

 83 



0 

 2 

 4 

 0 

 6 



2 

 8 

 4 

 6 



10 



6 

 4 

 0 

 10 

 8 



Wi 



w 



W2 



WNi 



w 



WN2 



0 



WSI 

 0 



WNi 

 0 



0 0 

 0.0 

 0.0 

 0.0 

 3.2 



• 



55.2 

 47.6 

 49.3 

 49.6 

 51.0 



53-1 

 47.0 

 50.9 

 48.3 

 50.9 



50.9 

 46.7 

 51.2 

 50.3 

 49.1 



53.1 

 47.1 

 50.5 

 49.4 

 50.3 



15.4 

 18.0 

 19.4 

 21.0 

 18.6 



22.6 

 22.2 

 23.6 

 22 0 

 21.6 



17.0 

 17.2 

 17.0 

 18.6 

 17.8 



18.0 

 18.6 

 19.2 

 20.0 

 18.9 



25.0 

 230 

 24.0 

 26.0 

 23.0 



10.0 

 14.0 

 13-0 

 14.0 

 15.5 



89 

 86 



75 

 82 



75 



57 

 76 

 50 

 87 

 .71 



90 

 98 

 90 

 88 

 78 



79 

 87 

 72 

 86 

 75 



7 



10 

 3 

 2 



10 



1 



0 

 6 

 10 

 8 



10 



4 

 7 



8 

 6 



WN^ 



SI 

 WN2 



s» 



W^ 

 0 



w^ 



0 



ws^ 



WSI 



0 



0 

 WSI 



0 



0.0 

 0.0 

 0,0 

 0.3 

 7.6 



W 

 • 



51.4 



50.9 



51.4 



51.2 



15-8 



19.5 



15.4 



16.5 



21.3 



9.8 



83 



73 



87 



81 



6 



7 



6 









38.8 





Oryszew. (St. 5). 



1 7 



1 



9 



1 7 









Max. 



Min. 



7 



1 



9 



h 



1 



9 



7 



1 



9 







I514 



51-4 



50.7 



51.2 



9.2 



13-3 



9.3 



10.3 







71 



53 



80 



68 



0 



6 



3 



Wi 



W2 





0.0 





149.3 



48.6 



51-6 



49.8 



8.0 



13.2 



9.4 



100 







82 



62 



86 



77 



9 



9 



8 





N2 



w 



0.0 





53-9 



v53.1 



55.2 



54.1 



12.4 



16.2 



11.3 



12.8 







72 



63 



92 



76 



0 



8 



3 



NWi 



Wi 





0.8 





57.4 



57 2 



55.8 



56.8 



14.5 



20.5 



16.6 



17.0 







86 



57 



53 



65 



8 



7 



3 



NI 





0 



0.0 





55.5 



54.7 



52.9 



54.4 



19.0 



240 



18.5 



200 







66 



60 



77 



68 



6 



5 



8 



0 



0 



0 



0.0 





51.7 



50.6 



49-5 



50.6 



17.3 



22.5 



17.7 



18.8 







75 



52 



73 



67 



6 



3 



8 



W 



NEi 



NEi 



0.0 





47.6 



46.2 



45.9 



46.6 



17.8 



19.0 



13.5 



15.9 







67 



68 



93 



76 



8 



9 



3 



NI 



NWi 



0 



4.3 





45.4 



47.1 



49.7 



47.4 



13.6 



14.0 



11.1 



12.4 







99 



96 



76 



90 



10 



10 



9 



Wi 



NW3 



NW4 



0.8 



• / 



49.9 



51.0 



51-3 



50.7 



10.2 



12.2 



10.5 



10.8 







84 



79 



94 



86 



10 



10 



3 



W^ 



NW* 





0.0 



/ 



49.9 



49.2 



49.2 



49 4 



11.1 



12.8 



10.2 



11.1 







76 



73 



97 



82 



2 



6 



10 





W* 



W^ 



2.6 



• / 



48.5 



47.4 



47.0 



47.6 



12.5 



19.0 



13.3 



14.5 







93 



49 



89 



77 



8 



4 



7 



Wi 



W 



El 



1.0 



• 



46.4 



46.5 



45.1 



46.0 



14.2 



19.0 



i6a 



16.3 







98 



72 



92 



87 



10 



6 



10 



NWi 



NWi 



El 



2.5 





43-1 



42.9 



43.9 



43.3 



16.2 



20,5 



14.3 



16.3 







89 



63 



86 



79 



10 



6 



9 



0 



SW2 



SWi 



2.0 



• CS. 



43.2 



43.9 



46.0 



44.4 



13.4 



17.5 



15.2 



15.3 







88 



73 



87 



83 



9 



8 



9 



SI 



E^ 



W 



1.2 



• 



49.6 



50.5 



52.7 



50.9 



10 2 



14.8 



8.5 



10.5 







84 



61 



70 



72 



9 



8 



8 



N3 



W 



N2 



0.0 



/ 



53.4 



52.2 



52.6 



52.7 



10.1 



16.7 



13.0 



13.2 







70 



54 



69 



64 



6 



2 



6 



N* 



N4 



N^ 



0.0 





52.6 



52.4 



50.9 



52.0 



12.3 



14.0 



14.2 



13.7 







79 



85 



80 



81 



2 



10 



4 



NWi 



NW2 



0 



0.3 



• 



[ 47.4 



44.5 



48.0 



40.6 



17-3 



20.4 



11.6 



15.2 







77 



63 



88 



76 



3 



8 



10 



SWi 





W3 



1.9 





49.5 



49.7 



49.2 



49.5 



10.8 



155 



12.3 



12.7 







99 



67 



73 



■ 79 



10 



7 



5 



w^ 



W2 



NWi 



4.9 



•cw. 



49.8 



50.2 



51.0 



v5o.3 



11.5 



12.3 



10.8 



11.3 







98 



95 



94 



96 



10 



10 



5 



w 



NWi 



0 



6.6 



• 



i 51.6 



52.3 



52.9 



52.3 



12.3 



17-2 



13.3 



14.0 







90 



70 



83 



81 



3 



8 



5 



NW3 



NW'' 



0 



0.0 





52.6 



51.5 



52 1 



52.1 



15.3 



191 



14.0 



15.6 







82 



56 



90 



76 



9 



8 



10 



Wi 



NW-' 



NI 



3.0 



• 



i 51.6 



51.0 



51.1 



51.2 



13.0 



15.2 



13.2 



13.7 







89 



89 



76 



85 



10 



7 



2 



NI 





0 



1.6 





' 52.5 



52.1 



52.2 



52.3 



13.5 



19-4 



13.5 



15.0 







80 



43 



85 



69 



0 



5 



7 



0 



N2 



NW' 



1.0 



• 



52.1 



53.1 



53.7 



52.9 



14«2 



17.^ 



15.6 



15.7 







85 



73 



85 



81 



1 



10 



8 



NWi 



NWi 



N' 



0.0 





53-9 



52.5 



49-4 



51.9 



14.8 



19.6 



14.5 



15.7 







76 



49 



84 



69 



7 



3 



8 



NI 



NWi 



NWi 



0.0 



Cir.W 



46.1 



45.6 



44.5 



45.4 



15-9 



20 2 



15.0 



16.5 







86 



66 



96 



83 



10 



4 



2 



Wi 



Wi 



0 



0.4 



• = 



47-6 



49.8 



55.4 



50.9 



18.0 



21.0 



18.6 



19.0 







87 



93 



68 



83 



3 



6 



8 



W2 



Wi 



0 



0.0 





48.0 



47.2 



46.6 



47.3 



22.2 



20.5 



17.3 



19.3 







Ó4 



86 



98 



83 



8 



9 



10 



SW2 



SWi 



NI 



1.6 





50.1 



50.0 



47 0 



49.0 



14.8 



20.6 



16.5 



17.0 







72 



45 



75 



64 



3 



7 



9 



W2 



W2 





0.0 





a. 50.0 



49.8 



50.1 



50.0 



13.8 



17.6 



13.6 



14.6 







82 



67 



83 



77 



h 



7 



7 









36.5 





Pam. Fizyj. Tom XI. 



Dział 



I.-10. 



