Grudzień. 1886 r. spostrzeżenia meteorologiczne. ' TJladówka* 97 





\ Barm. sprow. 



do C» — 700 nim 4- 





Termometr suchy 



Termograf 



Wilg. względ. 



Stop. 



7arhm_ 



Kierunek i sifa wiatru 



padu li 

 lim. W 



— — _ 



DWAGI.j 















































0 --^ 

 . S 





1 



1 



9 







7 



• 1 



9 



1 



Max. 



Min. 



7 



1 



9 





7 



1 



9 



7 



1 



1 



|& 



1 



37.3 



39.0 



40.1 



38.8 



— . 



3.1 



1-4 



- 2.4 



- 1.4 







94 



78 



96 



89 



0 



0 



0 



SSEi 



S2 



0 



0.0 





I 



39.6 



3g.4 



37.6 



38.9 







1.0 



0.8 



0.7 



0.2 







96 



87 



87 



90 



10 



10 



10 





SSE3 



SSE3 



0.0 





1 



35.1 



36.8 



40.5 



37.5 





5.9 





2.1 



48 







96 



98 



96 



97 



10 



10 



10 





SS\V2 



ssw-i 



1.0 





1 



43.1 



42.2 



35.0 



40.1 





1.0 



3.7 



8.4 



4.4 







96 



95 



100 



97 



8 



10 



10 



NNW 



NE2 



EES3 



1 i.'i 





J 



2g.o 



29.1 



33.1- 



30.4 





7.0 



10.8 



2.2 



6.7 







91 



86 



94 



90 



3 



10 



0 



SSE-' 



S* 



SSW 



3.9 











37.1 











2.9 













93 



















' 35.8 



37.4 



36.3 



36.5 





0.6 



0.8 



- 1.8 



— 0.1 







92 



85 



90 



89 



10 



10 



2 



SWi 



SW+ 



SW-2 



0.0 



T* 





35.0 



34,4 



33.1 



34.2 





0.4 



2 7 



2.1 



1.7 







g6 



74 



77 



82 



3 



2 



2 





SSE-2 





0.0 





33.0 



34.4 



35.2 



34.2 





0.6 



6.1 



0.1 



2.3 







89 



66 



94 



83 



4 



1 



4 



SSWi 





SSW 



0.0 







31.6 



3o.6 



29.6 



3o.ó 







1.6 



3.2 



3 6 



1.7 







o3 



81 



93 



91 



1 



4 



2 



SE2 



SSE^i 



SSEi 



0.0 



1 1 



1 



28.5 



28.0 



26.0 



97.5 

 32.6 





5.2 



6.6 



5.7 



5.7 

 2.3 







8g 



83 



86 



86 



86 



10 



8 



9 



SSE3 



SE-> 



SSEI 



0.0 





1 



25.G 



31.5 



33.3 



31.8 





7.0 



4.3 



0.2 



3.5 







87 



76 



90 



84 



3 



10 



0 



S* 



SSW^ 



WSWI 



0 0 





:l 



40.8 



39.5 



36.8 



39.0 



— 



3.8 



1.8 



— 2.4 



— 1,5 







100 



Ó7 



98 



88 



2 



0 



2 



WSW 



wsw-2 



SSVV2 



0 0 



U 



1 



34.0 



34.8 



35.8 



3-1.9 





0.4 



1.8 



0.1 



0.5 







90 



85 



94 



90 



10 



10 



10 



SSE2 





SI 



0.0 



1 1 



1 



37.0 



37.7 



37-4 



37.4 







2.4 



1.1 



— 2.3 



— 1.2 







94 



81 



98 



91 



7 



0 



0 



S' 





SI 



0,0 



LJ 



1 



38.7 



38.9 



40.2 



3g.3 

 36.3 





1.0 



4'. 5 



4.3 



3.3 

 1.0 







92 



81 



85 



86 

 88 



10 



10 



8 



WSW2 



WSW2 



ssw^ 



o.c 



l_| 



1 



38.8 



37.9 



37.5 



38.1 





1.0 



5.1 



3.1 



3.1 







92 



82 



83 



87 



0 



0 



1 



SI 



SSW 



s-i 



o.e 



LJ 



1 



34.0 



32.0 



32.1 



32.7 





2.3 



3.9 



6.2 



4.1 







85 



84 



73 



82 



0 



10 



2 



SSEi 



SSW 3 



S'^ 



0.0 





1 



38.2 



39.3 



36.6 



38.0 





i.y 



4.5 



4.2 



3.5 







93 



84 



97 



91 



10 



10 



10 



WNW 



SSW 



SSW-' 



0.0 





1 



32.5 



33,3 



38.3 



34.7 





7.4 



10.4 



4.1 



7.3 







86 



81 



93 



37 



10 



10 



10 



sw< 



SW3 



NI 



0.3 



9 



2 



36.9 



34.5 



33.2 



34.9 





2.6 



6.6 



6.2 



5.1 







96 



88 



90 



91 



88 



10 



10 



9 



SE-^ 



SSEI 



SSEI 



0.0 











33.7 











4.6 

























. 2 



33.9 



35.8 



39.0 



36.2 





5.5 



4.9 



0.2 



3.5 







99 



87 



94 



93 



10 



10 



10 



S' 



NE2 



NE" 



1.2 



9 = 



' 2 



40.7 



40.9 



41.0 



40.9 



— 



1.0 



— 0.3 



0.2 



— 0.4 







96 



94 



96 



go 



10 



10 



10 





SE* 



SE" 



0.8 





2 



36.7 



35.2 



33.9 



35.3 





0.8 



2.6 



2.0 



2.1 







98 



98 



98 



93 



10 



10 



10 



ESE3 



SE-2 



SF/i 



9-7 





2 



36.1 



37.1 



37.0 



36.7 



. 



2.0 



0.0 



— 2.3 



— !.4 







100 



96 



98 



98 



1 



10 



0 





S3 



SI 



0.0 





2 



37.3 



1 



37.4 



36.8 



37.2 

 57.5 







4.4 



— 2.0 



— 0.4 



— 2.3 



0.3 







98 



■96 



96 



97 

 96 



10 



5 



10 



0 



SSWi 



SI 



0.0 



u = ifJ 



2 



37.2 



33.5 



40.6 



33.8 



— . 



1-4 



— 0.7 



- 2.9 



— 1.7 







96 



94 



93 



96 



10 



10, 



10 



ENE' 



NE-i 



NE' 



1.7 





2 



41.3 



41.8 



42.1 



4^.7 







4.2 



— 3.2 



— 5.0 



— 4.2 







97 



98 



98 



9^ 



10 



10 



10 





NNE'^ 



NNEI 



0.0 





2 



41.2 



41.0 



41.2 



41.1 







0.0 



— 3.5 



— 3.3 



— 3,9 







95 



93 



96 



90 



10 



101 



10 



SE- 



ESE- 



SWI 



0.0 



u = 



2 



U1.3 



40.3 



3q.4 



40.3 



. 



7.6 



— 3.1 



— 3.6 



-- 4-8 







1 00 



96 



loo 



99 



1 



4 



10 



0 



SWI 



SE-i 



0,0 





3 



38.3 



36.4 



35.2 



36.6 





0.6 



2.0 



3.4 



2.0 







98 



98 



loo 



99 



10 



10 



10 



SE3 



ESE3 



SE' 



4.5 



• = 



3 



! 35.2 



34.7 



35.3 



35.1 





3.0 



5.4 



5.0 



4.5 







100 



99 



100 



loo 



10 



10 



10 



SEi 



SE3 



SE'^ 



2.3 











38.9 











— 1.3 











98 



















•r. 



! 36.2 



36.4 



36.6 



36.4 





0.5 



2.7 



1.3 



1 .5 







95 



87 



93 



92 















37.0 







/§iokolówka. 



1 

 1 



7 



1 



9 





7 



1 



9 





Max. 



Min. 



7 



1 



9 



h 



1 



9 



7 



1 



9 





Uwagi 





43.0 



42.9 



44.Ó 



43.5 





1.7 



5.0 



- 1.2 



0.7 



5.5 



— l'.7 



94 



78 



92 



88 



0 



0 



0 



SSWi 



SSWi 



SSWO 



0.0 



u 





44.2 



43.7 



42.5 



43.5 





0.0 



5.6 



6.6 



4.1 



7.0 



— 1.2 



ioo 



94 



94 



96 



5 



4 



10 



ssw 



SSWI 



SSW3 



0.0 



LJ 





41.0 



41.1 



44.9 



42.3 





7.6 



9-4 



1.4 



6.1 



10.3 



1.2 



94 



93 



100 



96 



10 



8 



10 



SSW2 



SWI 



WNWi 



1.0 







46.5 



44.6 



39.4 



43.5 





3.9 



5.6 



8.3 



5.9 



9.0 



1.5 



100 



loo 



99 



100 



10 



10 



10 



NO 



ESEi 



SSEI 



6.2 







35.4 



34.1 



38.8 



36.1 





10.5 



1 1.3 



3.0 



8.3 



12.1 



3.0 



82 



Sg 



loo 



90 



10 



10 



0 





SSW 3 



W 



0.1 













41.8 











5.0 











94 



















40.4 



41.9 



41-7 



41.3 





0.6 



3.0 



— 2.8 



0.3 



5.0 



— 2.8 



96 



71 



g6 



88 



3 



10 



0 



W 



NNW 



NWo 



0.0 



u 





39.9 



3y.l 



3S.7 



39.2 



— . 



1.5 



2.3 



0.0 



0,3 



3.1 



— 2.7 



98 



70 



loo 



89 



10 



5 



0 



WNW 



W SWI 



WO 



0.0 



u 





38.0 



3y.l 



39.2 



33.8 





1.9 



3.8 



— 3.2 



— 0.4 



4.9 



— 3.2 



100 



75 



98 



91 



10 



3 



5 





SSWo 



SSWO 



0.0 



u 





36.5 



3Ó.9 



35.1 



36.2 





2.0 



7.0 



7.0 



5.3 



7.0 



— 2.9 



100 



85 



91 



92 



10 



4 



10 



S' 



s-i 



S2 



0.0 







34.4 



33.2 



31.7 



33.1 





5.') 



7.0 



64 



6.1 



7.8 



4.9 



94 



87 



93 



91 



10 



10 



10 



S^' 



S-2 



S-' 



0.0 













37.7 











2.3 











90 





















31.5 



37.2 



42.8 



37.2 





5.0 



7.2 



0.0 



4.1 



g.o 



0.0 



97 



66 



loo 



88 



3 



1 



4 



SSW 



NW'i - 



NW 



0 0 







44.1 



44.0 



40.2 



42.8 





0.8 



1.8 



— 2.0 



0.2 



2.5 



— 20 



85 



71 



98 



85 



10 



10 



10 



NI 



NNEi 



NNEI 



0.1) 



LJ 





39.3 



39.3 



40.2 



39.6 





0.5 



3.0 



1.0 



1.2 



3.0 



— 1.0 



96 



56 



92 



81 



3 



2 



1 



SSW 



SI 



SI 



0 0 



u ® 





41.7 



42.1 



42.7 



42.2 





0.4 



0.2 



— 1.8 



— 0.7 



1.8 



— 1.8 



loo 



92 



100 



97 



10 



10 



10 



S' 



WSWi 



WO 



3.2 







43.5 



44.1 



45.0 



44.2 





1.6 



3.2 



1.2 



0.9 



4.3 



— 1.6 



100 



90 



90 



95 



10 



5 



0 



sw» 



WNW" 



WSWO 



0.0 













41.2 











1.1 











89 





















43.8 



42.8 



42.4 



43,0 





1.4 



4.6 



2.4 



2.8 



5.5 



0.6 



93 



86 



89 



89 



10 



0 



0 



SI 



sw-» 



SWI 



0.0 







3g,l 



37-0 



37.5 



37.9 





1-4 



4-7 



4.1 



3.4 



6.0 



— 0.8 



87 



84 



87 



86 



10 



10 



7 



s» 



SWS' 



WSWI 



0.0 







42.2 



43.3 



42.5 



42.7 





3.6 



4.5 



3.4 



3.8 



5.9 



2.3 



97 



94 



100 



97 



10 



10 



10 



NO 



N' 



SSW 



2.6 







38.1 



38.0 



41.4 



39.2 





4.0 



10.7 



5.0 



6,6 



11.3 



2.9 



97 



87 



100 



95 



10 



10 



10 



sw 



s\v< 



sw 



0.0 







42.0 



38.8 



37.6 



39.5 





3.5 



7.9 



5.8 



5.7 



8.2 



3.5 



100 



88 



94 



94 



10 



10 



10 



So 



S" 



SSWO 



0.0 













40.Ó 











4.5 











92 





















38.2 



38.9 



40.5 



3g.2 





4.8 



10.2 



3.3 



6.3 



1 1.2 



4.0 



96 



82 



97 



92 



10 



6 



10 





Wo 



E3 



0.0 







43.9 



43.0 



44.4 



i 43.8 





1.8 



2.1 



2.2 



2.0 



4.3 



1.8 



96 



98 



100 



98 



10 



10 



10 



ESE2 



ESE-i 



ESE-i 



1.3 



• = 





41.9 



38.6 



38.5 



3g.7 





2.2 



4-4 



5.0 



3.9 



5.0 



2.0 



100 



loo loo 



loo 



10 



10 



10 



SE' 



SE" 



W 



3.1 



= • 





41.3 



41.1 



41.2 



41.2 





1.8 



3.6 



— 0.2 



1-7 



5.7 



— 0.2 



100 



93 



100 



98 



10 



10 



10 



NW 



SV/i 



WSWO 



0.0 







41.3 



40.9 



398 



40.7 





4.1 



0.6 



0.0 



— 1.2 



1.1 



- 4,1 



98 



89 



100 



96 



10 



10 



10 



WSWo 



SWI 



SE' 



0.9 



u ^ 











40.9 











2.6 











97 





















39.0 



41.5 



43.6 



41.4 





0.6 



— 0.6 



— 1.3 



— 0.8 



0.5 



- 1.3 



96 



96 



96 



96 



10 



10 



10 



E' 



NEi 



E' 



0.0 







44.6 



43.3 



44.7 



44.2 





3.2 



— 2.4 



— 3.1 



— 2.g 



— 0.5 



- 3.2 



96 



94 



98 



96 



10 



10 



10 



NE' 



ENEi 



ENE' 



0.0 







44.9 



144.8 



44.0 



44.6 





3,8 



— 3.2 



— 2.8 



— 3.3 



— 2.3 



— 4.0 



95 



98 



98 



97 



10 



10 



10 



F' 



El 



E' 



0.0 







40.0 



44.5 



43.9 



44.5 





4.8 



— 3.0 



— 1.0 



— 2.9 



— 4.7 



— 1.0 



100 



loo 



loo 



loo 



10 



10 



10 



NNEi 



NEo 



SE' 



0.0 







41.9 



40.3 



39.0 



40.4 





1.4 



3.6 



5.9 



3.6 



6.2 



— 0.8 



100 



95 



99 



98 



10 



10 



to 



SEi 



SE' 



SSE-i 



1.5 



• 





3.8.9 



38.9 



39.9 



3g.2 

 42.4 





7.2 



5.8 



4.2 



5.7 



8.0 



4.2 



98 



97 



97 



97 



10 



10 



10 



S' 



SSE-i 



WNW 



7.0 



• 



















- O.l 









97 



















& 



40.8 



40.6 



40.9 



40.8 





1.4 



4.1 



1.7 



2.4 







96 



87 



97 



93 















26.9 





Pam. Fizyj. Tom VIL Dział I.— 13 



