[stopad (ISToyembre) 1889 r. spostrzeżenia meteokologiczne. Ostrowy. (St 6). 133 





- - 



Barm. sprow. 



) 00=700«i«-l- 



Termometr suchy 



Termograf 



Wilg. wzgięd. 



Stop. 

 zachm. 



Kierunek i siła wiatru 



wys. opadu 

 w milim. 



UWAGI, 



j 



o 





5 



1 



1 



9 





lir 



Min 

 Jillll. 



0 



1 



1 



9 





0 



1 



9 



0 



1 



9 





4 



48.3 



48.5 



48.8 



6.9 



7.5 



6.9 



7-0 



— 







100 



100 



96 



99 



10 



10 



10 



W 





N2 



a (j.^. 



— -O- ^ 





4 



1 n r» 



P.r» ,1 

 0^.4 



4v.4 



4.4 



5-7 



5-4 



5-2 







98 



94 



97 



90 



10 



1 0 



1 0 



AT AA/ 2 



ATAA72 

 IN W 



Q 1 

 0 



0.1 







5 





Cv 1 Q 

 04.0 



co 9 



5.7 



c c 



o-o 



1 (S 



3.0 







98 



94 



loo 



97 



10 



1 0 



0 



A\/2 



QAA72 

 0 W 



Q2 

 0 



0.0 







5 ' 







Cv9 n 





A C 



4-0 



4.0 



3-5 







1 00 



90 



9« 



90 



3 



10 



5 



Q2 

 0 



VT?3 



Q2 



0 



0.0 







Q 



P> 1 9 

 0 i 





^ 1 9 





9-V 



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 0. i 



7-4 







93 



Q- 

 0/ 



90 



92 



10 



0 

 0 



7 



Q3 



O'' 



Q2 



0.0 









54.5 



56.7 



54.8 



2.7 



lO.I 



6.6 



6.5 



— 



— 



100 



80 



99 



93 



6 



3 



10 



SI 



SW2 



Wi 



0.0 



= xi.CirW 





^. 





C, 1 C) 



04'0 



CC. Q 



C Q 

 0'0 



u. l 



fS -7 



0. / 



S o 

 o-o 







97 



90 



94 



94 



1 0 



1 0 



1 0 



W 



AA73 



AA73 



1.0 







5< 



/IO Q 



c,o n 



/I o 0 



8.2 



lU-D 



6.6 



0.0 







99 



75 



0 1 



05 



10 



7 



10 



AA73 

 W 



ATAA74 

 I\ W * 



W 3 

 W 



8 9 



®Cir.NW 





4< 





ZLC, Q 



40.O 



40 



A 1 



4.7 



6 c 

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2-5 



4.Ó 







92 



0 1 



93 



fin 

 59 



Q 



9 



1 



ATAA73 



ATAA74 

 IN W * 



ATAA/,"? 

 IN W ' 



2.6 



«A 





4t 



'I Q Cv 





Cn Q 



2 1 



1 1 



4.4 



1 . 2 









91 



79 



94 



ftft 

 00 



9 



9 



3 



ATAArS 

 iN W 



AT AA73 

 IN W 



ATAA72 



0.0 









57.0 



59-3 



57.2 



0.1 



3-4 



1.5 



1.6 



— 







98 



83 



98 



93 



9 



7 



9 



NW2 





N2 



0.2 



zz: 1 1 »ł» 



1 — 1 r|» 







62.7 



69 7 



flO Cv 





0.5 



0.5 



1 . 2 







1 00 



73 



09 





10 





9 



W 



ATAA73 

 IN W ^ 



AA72 



0.0 







6] 



60.4 



C.O 6 



uu.^ 



n (S 

 U. U 



1-7 



4 4 



2.9 







oo 



90 



loo 



94 



10 



1 0 



1 0 



W " 



AA73 



AA73 



0 ^-1 



^® 





6j 



62.2 



63.8 



62.4 



c (S 

 O-O 



0.9 



C C\ 



0-9 



D. t 







1 00 



90 



loo 



99 



lo 



1 0 



1 0 



ATI AT" 1 



ATAA73 

 IN W ^ 





0.0 







6; 





64.6 



6Cv 9 



C 1 

 0- i 



1 1 



7.1 



0.3 



3.2 







1 00 



91 



loo 



97 



lo 



1 0 



0 



Ql 



Q2 



Q2 



0.0 







ól 



61 5 



60.3 



61.2 



0.2 



4.8 



4-3 



3-4 



— ' 



— 



98 



92 



loo 



97 



4 



10 



10 





W3 



W3 



0.2 



LJ — IS 





58 





61.8 



CO 0 



c 0 

 O-o 



7.1 



0 1 



4.0 







1 00 



03 



90 



91 



10 



1 0 



0 



W 



AT\A74 

 IN W 



ATAA73 

 IN W 



0.1 



-0. 





64 



6^ Q 



'-'O-o 



6^ 6 



(Sc 0 



0 c 

 ^ 0 



0-9 



0 n 

 3.9 



3-0 







1 00 



93 



90 



94 



10 



1 0 



1 0 



NAA73 

 IN W 



ATAA72 

 IN W 



ArAA73 

 IN W 



0.0 







64 





65.2 



(Sio 



O-O 



OjO 



/I c 



4-0 



4-7 







93 



07 



94 



91 



10 



1 0 



1 0 



W 3 

 W 



I> W 



W 2 

 W 



0.0 







64 



6^^ 8 



67 1 



65.8 



C Ci 



O-O 



6 c 

 0.0 



C 



0- / 



5-7 







100 



94 



1 00 



90 



1 0 



1 0 



1 0 



W 2 

 W 



W 2 



W2 

 W 



1.2 



— 





67 



68.1 



68.3 



67.9 



5.3 



6.3 



5-1 



5-4 



— 







94 



93 



98 



97 



10 



10 



10 



W» 







0.0 



r\ 





67 



66 Q 



64.5 



66.0 



A \ 



4.4 



0.0 



1.7 



3-5 







90 



70 



90 



91 



10 



1 0 



2 



0 w 



U 





0.0 



r\ 





62 



61.0 



59-9 



61.1 



— - 1 0 



' 'Ó 



j ] 



— 1 . 1 



o.u 







1 00 



no 

 9Z 



90 



97 



lo 



c 

 0 



1 n 

 l U 



0 



0 ł V 





0.0 



= U 





59 



0 /•4 



Ot-.O 



Cv7 0 



— 2.2 



1 .0 



1 1 



i . 1 



0.9 







1 00 



07 



90 



94 



0 



0 



0 



0 w 



0 > V 



S12 



0.0 



U 





50 



4 / •O 



42.8 



46.8 





0.9 



1 .0 



1 .0 







1 00 



04 



00 



91 



0 



0 



0 



,Q3 



S12 





0.0 



1 1 





43 



43.8 



43.7 



43.5 



0.3 



2.9 



0.4 



1.0 







96 



82 



94 



91 



9 



5 



9 



S3 







0.0 



uCir. SW 





40 



38.7 



39-4 



39.6 



— 0.8 



1.3 



— 05 



— 9.1 



— 



— 



98 



96 



98 



97 



10 



10 



0 









0.0 



1— j = 





43 



43.8 



44 5 



43.9 



— 2.1 



0.5 



— 0.9 



— 0.9 







100 



89 



96 



95 



2 



10 



10 





SE-^ 





0.0 







44 



465 



49.6 



46.9 



" 1,4 



— 1.9 



— 3 1 



— 2.4 







98 



96 



98 



97 



;° 



10 



1 



W 



SW2 





6.1 







51 



52.6 



54.8 



53.0 



— 3.4 



— 1.8 



— 2.9 



— 2.7 







100 



94 



89 



94 



10 



10 



10 





E'^ 



E^ 



0.0 







55 



55.2 



55.6 



55.3 



2.4 



4.6 



2.6 



3.1 







98 



88 



95 



94 



8 



8 



6 









34-1 





^anniM. (St. 7). 



1 ^ 



i 1 



9 





7 



1 



9 



j Max. 



Min. 



h 



1 



9 



h 



1 



9 



7 



1 



9 1 



Uwagi. 



50 



48.4 



48.2 



49.0 



7.0 



7.8 



6.4 



6.9 



8.0 





5.5 



100 



98 



94 



97 



10 



1 0 



10 



NI 



ENi 



0 



18-2 



m 



45 



49.4 



50.9 



48.4 



5.6 



6.0 



5.8 



5.8 



6.0 





5.0 



97 



91 



88 



92 



10 



10 



10 



NI 



0 



0 



1-3 



m 



52 



53-9 



55-1 



53.8 



5-2 



6.3 



2.0 



4.2 



6.0 





2.0 



98 



90 



96 



95 



10 



10 



10 



0 



0 



0 



0.0 





55 



53.6 



51.9 



53.5 



— 0.4 



3-6 



5.6 



3.6 



6:0 





1.0 



100 



97 



91 



96 



10 



10 



10 



0 



ESI 



ESI 



0.0 



= u 



51 



52.4 



53.4 



52.5 



7.0 



12.0 



7.8 



8.6 



120 





4-0 



91 



78 



92 



87 



10 



2 





ES' 



ES^ 



0 



0.0 





54 



55.4 



56.9 



55.5 



38 



11.6 



6.1 



6.9 



11.5 





3-0 



93 



73 



97 



88 



10 



10 



10 



0 



0 



0 



00 





55 



55.0 



54.3 



55.0 



6.0 



10.2 



6.8 



7-6 



6.0 





4-5 



88 



82 



94 



88 



10 



10 



10 







0 



1.9 



% 



51 



48.8 



50.4 



50.1 



8.2 



10 6 



6.6 



80 



10.0 





5-0 



98 



91 



83 



91 



10 



10 



10 



WSI 



WN3 



W4 



7.5 



m 



46 



43.7 



45-2 



45-0 



4.0 



5-4 



2.9 



3.8 



6.0 





2.0 



100 



91 



91 



94 



10 



10 



5 





0 



ENi 



5.6 



m 



48 



49.6 



52.1 



50.1 



2.6 



3-0 



1.6 



2.2 



5.0 





1.0 



91 



91 



89 



86 



8 



5 



0 



WN3 



WN' 



WNi 



1-3 



®>'^ 



55 



57.1 



59.5 



57.4 



0.2 



4.0 



2.4 



2.2 



3.5 





1.0 



96 



80 



93 



89 



10 



9 



10 



N» 



W 



NI 



0.0 





62 



63.1 



63.0 



62.8 



0.8 



3.2 



0.4 



1.2 



3-0 





1.2 



96 



81 



92 



89 



10 



10 



10 



0 



i) 



0 



0.0 





62 



60.3 



59-8 



,60.7 



1.4 



2.0 



4.6 



3-1 



40 





1.0 



89 



96 



97 



95 



10 



10 



lo 



0 



0 



WN'^ 



0.0 



= LJ 



61 



. 62.8 



64.2 



62.9 



6.0 



7.2 



6.0 



6.3 



7.0 





4.0 



94 



94 



97 



95 



10 



10 



10 



0 



0 



0 



0.0 





65 



66.6 



65.8 



66.1 



5.2 



7.1 



1.8 



3-9 



7-0 





1.0 



100 



91 



100 



97 



10 



10 



10 



0 



El 



0 



0.0 





62 



61.8 



60.5 



61.6 



— 0.2 



5.0 



4.7 



3-5 



50 





1.5 



100 



90 



96 



95 



10 



10 



10 



0 



0 



0 



0.0 



= U 



58 



58.8 



60.7 



59.3 



0.6 



7.6 



40 



4 0 



7.0 





3.0 



100 



76 



84 



87 



10 



10 



10 



WN2 



N3 



N3 



0.0 





64 



65.8 



65.7 



65-3 



1-9 



3.8 



3.6 



3-2 



4.5 





1.0 



100 



95 



90 



95 



10 



10 10 



0 



{) 



0 



0.0 





Ó4 



65.3 



^>5-5 



65.2 



40 



6.2 



5-2 



5.2 



6.0 





3-0 



92 



76 



84 



84 



10 



10 10 



EN' 



0 



0 



0.0 





65 



66.1 



67.6 



66.3 



5.2 



7.2 



6.4 



6.3 



7.0 





4.0 



97 



91 



98 



95 



10 



10 



10 



0 



0 



0 



0.0 





67 



69.0 



68.9 



68.6 



6.0 



7.0 



5.4 



5-9 



7-0 





4.0 



94 



88 



97 



93 



10 



10 10 



0 



0 



0 



0.0 





68 



67.5 





67.1 



44 



5-2 



3-1 



3.9 



5-0 





1-5 



93 



81 



91 



88 



10 



10 10 



0 



0 



{) 



0.0 





63 



62.1 



60.7 



62.1 



1.0 



1-3 



— 1-4 



— 01 



4.0 





2.0 



92 



87 



96 



92 



10 



10 10 



S' 



S' 



WSI 



0.0 





60 



58.0 



55.4 



57.8 



— 2.2 



2.6 



— 1.6 



— 0.7 



2.0 





3.0 



96 



85 



96 



92 



0 



0 



0 



0 



S' 



Si 



0.0 





50 



48.8 



43.4 



47.6 



— 3-2 



1.6 



— 1.6 



— 1.2 



1-5 





4.0 



87 



84 



96 



89 



0 



0 



0 



0 



S2 



0 



0.0 



U 



44 



144 9 



44.9 



44.7 



— 0.4 



3.6 



0.8 



12 



3-0 





3-0 



96 



82 



85 



88 



10 



1 



3 10 



s^ 



S'^ 



0 



0-0 





42 



3(».7 



39.8 



40.5 



— 0.6 



1.0 



— 0.8 



— 0.3 



1.0 





2.0 



96 



100 



96 



97 



10 



10 



10 



S' 



S' 



0 



0.0 





44 



45-2 



44.7 



44.8 



— 0.4 



— 0.6 



— 1.0 



— 0.7 



0.0 





2.0 



96 



100 



100 



98 



10 



10 10 



0 



0 



0 



2-.1 



❖ 



45 



47.4 



51.8 



48.1 



— 1.2 



— 1 0 



— 2.4 



— 1.8 



— 1.0 





4.0 



100 



100 



96 



99 



10 



lo 10 



0 



0 



0 



3.2 





52 



53-6 



55.9 



53.9 



- 3.6 



2.7 



~ 3-0 



— 3.1 



— 2.0 





50 



93 



94 



89 



92 



10 



10 



10 



ES" 



0 



0 



0.0 





ot 



55.8 



56.0 



55.8 



2.5 



4.9 



.2.9 



3-3 



5-0 





1.0 



95 



88 



93 



92 



9 



9 



1 



9 









41.1 





