I wiecień. 1886 r. spostrzeżenia meteorologiczne. W^arsiiawa* 21 



» 



Barm. sprow. 



-0 0" — 700 mm + 



Terinometr suchy 



Termograf 



Wilg. wzgigd. 



Stop. 

 zachm. 



Kierunek i siła wiatru 



^ J 



UWAGI. 







1 



1 9 



1 



1 



7 



1 



9 





Max. 



Min. 



n 

 1 



1 



9 





7 



1 



9 



7 



1 



9 



« ^ 





,1 



:.2o 



57. 5o 



6 1 .5o 



58.07 



6.4 



10.8 



6.6 



7.6 



12.9 



4.2 



75 



54 



79 



69 



8 



8 



2 



WSW 



WSW 



WSW 



0.0 



= r. 



2 



.30 



64. óo 



64.65 



64.85 



6.4 



9.8 



54 



7.2 



14.3 



1.0 



76 



5i 



72 



66 



1 



2 



0 



NNW 



NW 



s 



0.0 



= r. i w. 



o 

 O 



.80 



61.80 



59.85 



61.82 



6.4 



10,8 



7.2 



8.1 



12.0 



0.9 



54 



43 



66 



54 



1 



0 



0 



SE 



SE 



SSE 



0,0 



S r. 



14 



.00 



56.3o 



54.90 



56.40 



6.0 



l3.2 



10.4 



9.9 



1 5.5 



2.8 



82 



55 



58 



65 



2 



6 



10 



SE 



SE 



SSE 



0.0 





0 



sOO 



- 



52,65 



50.90 



52,85 

 08.80 



6.6 



11.8 



10.2 



9.5 

 8.5 



i3.3 



6.0 



74 



68 



87 



76 

 66 



10 



9 



4 



S 



SSE 



S 



0.0 





0 



.60 



47.25 



43.35 



46.73 



10.6 



17.7 



14.0 



14.1 



I9.0 



7.0 



77 



65 



74 



72 



6 



5 



10 



ssw 



SW 



S 





• V 



7 



.65 



46,50 



5 1.55 



47.23 



10.8 



8.6 



5.4 



8.3 



14.5 



5.4 



95 



68 



91 



85 



10 



10 



10 



w 



WNW 



WNW 



6x) 



• 



o 

 o 



.60 



51,90 



48.85 



51.45 



94 



12.0 



9.0 



10.1 



13.3 



1.4 



59 



40 



63 



54 



2 



3 



8 



w 



SSW 



s 



0,0 



= r. 



9 



.85 



46.50 



46.70 



46.70 



l3.2 



14.8 



1 1.8 



i3.3 



16.8 



5.0 



33 



52 



69 



5i 



2 



2 



0 



SSK 



SE 



SSE 



0,0 



= r. i w. 



o 



.10 



45.35 



44.35 



45.80 



11.8 



19.0 



14.0 



14.9 



20.1 



7.2 



65 



43 



55 



54 



2 



0 



0 



SSE 



SE 



SE 



0.0 



; r. 





47.58 









12.1 













6:i 

















1 



.45 



45.00 



47.95 



45.80 



1 1.2 



l5.6 



12.6 



i3.i 



16.1 



8.5 



54 



39 



52 



48 



0 



0 



6 



SSE 



SSE 



SSE 



0.0 







.75 



5l.l5 



57.75 



52.88 



9.7 



l3.6 



12.2 



11.8 



16.0 



9.0 



65 



52 



63 



60 



8 



7 



10 



SSE 



SSE 



E 



0,0 



• dr. 



■> 



o 



.75 



5 1.80 



52.o5 



52.53 



11.8 



16.6 



12.7 



13.7 



17.6 



8.8 



76 



39 



62 



5y 



5 



1 



2 



E 



SE 



ESE 



0,0 



4 



.35 



5o.8o 



5i.io 



51.42 



l3.6 



16.0 



12. ł 



14.0 



Ig.o 



9.1 



64 



47 



68 



60 



2 



4 



3 



SE 



SE 



ESE 



0.0 





-D 



.10 



49.45 



49.25 



5o.27 



7.2 



l5.6 



12.0 



11.6 



17.3 



6.0 



98 



46 



6-3 



70 



10 



3 



4 



WSW 



SSE 



ESE 



0.0 



= r. 







50.5^ 









12.8 













59 



















'.) 



.60 



49-3o 



52.3o 



5o.73 



l3.2 



17.5 



12.8 



14.5 



1S.4 



lo.i 



63 



29 



59 



5o 



0 



0 



0 



ESE 



SSE 



ESE 



0,0 





7 



.'.o5 



52.95 



48.35 



50.45 



14.4 



19.8 



13.9 



16.0 



20.6 



9.9 



55 



27 



61 



48 



1 



1 



0 



ESE 



SE 



E 



0,0 





o 

 o 



:.20 



51.25 



51.60 



52.02 



12.7 



19.7 



11.8 



14-7 



21.7 



10.6 



71 



60 



76 



69 



7 



8 



10 



E 



E 



ENE 



0.0 



T 



9 



.25 



52. o5 



53.5o 



52.60 



7.0 



7.2 



5.6 



6.6 



12.0 



5.3 



71 



69 



61 



67 



6 



10 



10 



E 



ESE 



E 



.0 



0 



■40 



53.20 



54.90 



54.17 



4.2 



8 0 



4.7 



5.6 



9.0 



2.0 



52 



44 



59 



52 



2 



2 



0 



E 



ESE 



E 



0. 











51.09 









11.5 













51 





















'.10 



55.60 



55.90 



55.53 



4.4 



7.4 



3.4 



5.1 



8.3 



0,6 



53 



35 



60 



49 



0 



0 



0 



ESE 



E 



E 



0,0 







.30 



57.35 



56.70 



57.45 



6.8 



10.2 



7.8 



8.3 



11.5 



— 0.6 



44 



33 



55 



44 



0 



0 



0 



E 



ESE 



E 



0,0 





o 



,40 



59.15^58.95 



59.17 



10.6 



14.2 



10.0 



11 6 



14.5 



1.9 



5i 



32 



55 



46 



0 



0 



0 



E 



SE 



ESE 



0,0 





4 



.50 



57.20 55.00 



56.90 



10.4 



l5.4 



11.2 



12.3 



16.0 



40 



5i 



3o 



52 



4ł 



0 



1 



0 



EKE 



SE 



SSE 



0.0 







1.10 



48.0000.85 



5o.65 



17.1 



16.8 



6.4 



i3.4 



17.0 



ó.o 



36 



37 



71 



48 



3 



0 



1 



SSE 



WSW 



NNW 



]^ 1 



=r|<, 4-m. 











35.94 









10.1 













46 



















0 



,o5 



54.60 55.55 



54.40 



5.8 



lĄ.O 



5.4 



8.4 



14.0 



0.2 



00 



47 



5o 



Oo 



0 





0 



-NT XT \\J 



JN JN W 



\T ATT? 



"\T 



JN 



0,0 



7 



.20 



o3.25 5o 45 



52.97 



5.2 



9.1 



8.0 



7.4 



1 1.0 



0.1 



54 



36 



55 



48 



1 



0 



0 



ENE 



E 



SE 



0,0 





8 



:.90 



48.50 41.30 



43.57 



10,4 



22.4 



16.6 



l6.5 



23.2 



4.1 



54 



31 



44 



43 



4 



1 



3 



S 



SW 



SSW 



0.0 





O 



:.5o 



.39.4541.15 



40.37 



18.8 



23.5 



10.8 



17.7 



24.8 



10.0 



3) 



36 



90 



54 



1 



3 



10 



s\v 



SW 



NNW 



5.6 



= 7 •5' 



0 



1.20 



5o,3o 52.70 



50.07 



2 2 



3.9 



1.6 



2.6 



10.8 



1.0 



75 



61 



78 



71 



10 



9 



5 



N 





NE 



0.0 













48.28 









10.5 













54 

















m. 



.60 



51.86 52.13 



1 



52.20 



9.5 



13.8 



,.5 



10.9 







62 



46 



65 



58 















11.1 







•fóse fó u: 



1 



1.1 



61.5 



63.5 



60.9 



6.2 



9.6 



5.2 



7.0 



10.3 



4.0 



78 



56 



86 





8 



6 



0 





W2 



W' 



0.0 







j.i 



67.6 



67.8 



67.5 



3.3 



9.5 



6.2 



6,3 



9.8 



0.8 



88 



48 



79 



\-i 



0 



2 



0 



W' 



W' 



W' 



0.0 



U 



Q 

 O 



i.5 



63.6 



62.9 



64.0 



2.1 



11.5 



8.4 



7.3 



12.7 



1.1 



84 



62 



69 



' 72 



0 



0 



0 



SSE'' 



ESE-2 



SE2 



0.0 



U 



4 





59,3 



58.3 



58.9 



3.8 



15.4 



1 1.0 



10.1 



15.9 



2.9 



83 



09 



73 



72 



1 



7 



1 



SE-2 



SSE2 



SSE^' 



0.0 







:\6 



55.1 



55.1 



55.3 



7.0 



14.6 



10 0 



10.5 



i5.o 



6.6 



85 



76 



92 



84 



6 



10 



1 



SSE-^ 



SSEi 



SSE' 



0,0 













6 U 







8.2 













84 



















■> 



>.8 



49.2 



47.0 



49.0 



I0.7 



17,0 



i3.o 



i3.i) 



ig.o 



6.8 



77 



64 



85 





6 



6 



3 



S' 



W 



S2 



1.4 



• T 



7 



7.1 



5o.i 



54 5 



5o.6 



8.8 



7.6 



6.3 



7.6 



13.8 



6.3 



92 



64 



7 6 





10 



10 



6 



WNW 



1SIVV2 



WNW2 



3.0 



• 





3-4 



54.9 



52.1 



54.1 



4.2 



11.6 



8.0 



7.9 



12.1 



1.0 



90 



48 



72 



70 



0 



4 



2 



W' 



SSE-^ 



SSE2 



0.0 



u 



9 



5.8 



48.9 



5o.3 



49.3 



5.8 



16.4 



11.4 



11.2 



17.0 



4.3 



82 



82 



79 



81 



2 



2 



1 



SSE-^ 



SSE2 



SSE2 



0.0 





0 



9.1 



47.9 



47.9 



48.3 



98 



20.1 



13.4 



14.4 



20.3 



7.0 



82 



45 



73 



67 



3 



2 



0 



SE' 



SSE-^ 



SE-' 



0.0 







50.3 









10.9 













74 



















1 



5.1 



48.1 



5o.6 



47.9 



10. 0 



16.5 



12.8 



i3.i 



1Ó.5 



8.0 



64 



48 



61 



57 



0 



7 10 



SSE-2 



SSE-J 



SE2 



0.2 



• 



2 



D.8 



55.0 



55 2 



53.7 



9.5 



12.5 



11.1 



11.0 



15.7 



9.2 



71 



76 



80 76 



8 



10 



8 



ESE^ 



SSE-^ 



SSE' 



0.0 





Q 

 0 



5.0 



54.6 



54 5 



54.7 



10.3 



17.8 



11.3 



i3.i 



17.9 



7-7 



78 



48 



77 



68 



3 



6 



3 



ESEi 



SSE'i 



ESM 



0.0 





4 



3.7 



53.2 



53.4 



53.1 



12.4 



16.9 



10.8 



l3.4 



18,2 



8.3 



76 



55 



83 



7 1 



2 



6 



2 



SEi 



SE' 



SE' 



0.0 







.3.4 



52 3 



5i,8 



52.5 



7.0 



I0.8 



12.9 



11.9 



16.3 



6.4 



100 



55 



70 



75 



10 



7 



4 



NW 



SE' 



NW' 



0.0 











52.4 







12.5 













' 70 



















0 



0.6 



5i.6 



54.1 



52.1 



10.0 



178 



<-,■' 



12.5 



18 8 



8.2 



73 



37 



83 



64 



0 



3 



1 



ESE'^ 



SE2 



0 



0.0 





7 



4.9 



.5.1 



55.5 



55.5 



55.3 



10.4 



21.0 



13.4 



14.9 



21.3 



7.0 



74 



35 



69 



59 



0 



3 



0 



ESEi 



SE2 



ESE' 



0.0 





o 

 o 



54.4 



54.5 



54.7 



12.2 



20.0 



13.2 



i5.i 



21.8 



8.8 



79 



43 



77 



66 



8 



7 



1 9 



ESEi 



ESE' 



ENE2 



0.0 



T 



9 



3.7 



54.4 



56.5 



54.9 



7.3 



13,1 



5.8 



8.7 



14-7 



5.8 



79 



80 



67 



75 



9 



7 



i 9 



ESE^ 



ESEI 



ESE-' 



0.0 





0 



5.0 



56.2 



57.8 



56.3 



4-9 



94 



4.6 



6.3 



\0.{ 



2.4 



64 



5 j 



67 



6o 



2 



8 



0 



ESE» 



ESE' 



ESE2 



0.0 













.54.7 







115 













I 65 



















l 



7.6 



58.2 



59.2 



58.3 



2.8 



9.2 



2.7 



4.9 



10.5 



0.3 



69 



3-; 



74 



61 



0 



1 



0 



ESE^ 



ESE^ 



SE2 



0.0 







0.3 



60.2 



60.7 



60.4 



3.1 



11.8 



5.5 



6.8 



14.1 



- 1.0 



71 



37 



71 



60 



0 



0 



0 



ESE' 



ESE' 



ESE' 



0.0 



u 



o 



2.6 



62.9 



63.1 



62,9 



5.6 



14.7 



8.1 



9.5 



17-0 



0.2 



83 



35 



67 



62 



10 



1 



0 



ESE' 



ESE' 



ESE' 



0.0 



u 



4 



1.7 



60.1 



59.5 



60.4 



6.6 



16 8 



9.6 



11.0 



17.5 



3.2 



80 



33 



69 



61 



10 



2 





ESE' 



SSE' 



SSE' 



0.0 





' 



6.5 



53.6 



53 6 



54.6 

 59.-3 



10.5 



16.H 



7.1 



1 1 .5 



8.7 



17.2 



3.3 



65 



37 



r> 



59 



1 



1 



6 





S' 



SW' 



WNW 2 



1.0 



• 





6.6 



57.3 



57.4 



57.1 



3.6 



8.9 



42 



5.5 



10. 0 



1.0 



75 



40 



70 



61 



5 



5 





NW^ 



NNE' 



ENE' 



0.0 





/ 



7.3 



56.7 



55.0 



56.3 



8.9 



10.4 



8.8 



9.3 



15.4 



— 0.8 



40 



42 



58 



46 



5 



2 



0 



NNE' 



ESE' 



SSE' 



0.0 



u 



8 



8.6 



47.2 



45.4 



47.0 



15.3 



21.8 



16.8 



17.9 



22.9 



3.3 



58 



33 



48 



46 



0 



1 



1 3 



ss 'y-i 



WSVV2 



SSW2 



0 0 





9 



2/) 



41.7 



41.4 



41.9 



l3.8 



22.7 



16,0 



17.5 



23.6 



12.0 



48 



39 



6g 52 



■> 



3 10 







WSW2 



8.1 





!o 



0.8 



54.1 



55.0 



53.3 



2.3 



4.8 



3.0 



3.3 



16,0 



2.2 



77 



62 



79 



72 



10 



9 



2 







w 



0.0 











51.1 









10,8 













1 56 



















11 



4.6 



54.8 



5,'>.i 



54.8 



7.6 



14.4 



9.5 



10.4 



16.0 



4.5 



76 



.5 I 



73 



66 



1 















13.7 





