144 Jó zefów, (St. 2) dział i, Mt^tEOROLOGUA I fliDROGRAf iJA. Grudzleń (Decembre) U 



Barm. sprow. 



do 00 = 700 mm + 



Termometr suchy 



Termograf 



o 



7 



1 



9 





/ 



j 



V 





Max. 



Min. 



/ 



1 



Q 

 V 





7 





Q 



I-I 





0 





1 



56.6 



58.3 



56.6 



57.2 



— 3.0 



— 2.4 



— 3-2 





3.0 





1.5 



— 4.7 



89 



94 



94 



92 



10 



10 



10 





NE2 



N3 



0.0 



2 



54-1 



56.0 



56.2 



55-4 



Q C 



0 0 



1,3 



1,8 





2.2 





1.5 



0 / 



q8 



q6 



1 00 



q8 



yo 



10 



lo 



1 0 





ĘS 





4.4 



3 



56.0 



tA 1 

 50.7 



50.0 



cA n 



1 Q 



1 .d 



j _i 



— 1 .2 





1.2 





1.1 



— 1.8 





00 

 yo 



q6 



yo 



10 



10 



1 0 



W 



NE 2 



NE^ 



rv 1 

 U. 1 



4 



Dl 5 



A" T 



A-" c 



A/l n 

 04. y 







i -o 



— 



0.7 



— 



0.5 



1 Q 



q8 





QA 

 V4 



yO 



1 0 



10 



1 n 

 1 \J 



NE^ ■ 



EN^ 



E2 



0.0 



5 



69.0 



71.2 



71.1 



/I 



/U. 4 



A 1 



4.1 



/.u 



8.2 





6.9 





0.9 



— 1 0 0 



O/l 



Q2 

 y^ 



1 00 



yo 



1 0 



/ 



1 U 



EN' 





Ę2 



0.0 



6 



71.4 



71.4 



70.8 



71.2 



— 6.1 



— 5.4 



— 5-7 





5.7 





o-o 



" 8.7 



93 



80 



87 



87 



10 



10 



10 





El 



E2 



0.1 



7 



67 5 



OO.C) 



62.1 



Ac A 



— 6.6 



0*^ 



— 6.0 





6.0 





0.7 



— 1 Q 



V0 



QO 





yo 



lo 



10 



1 0 



W 





ES2 



0 0 



o 

 o 



62„ 1 



u 1 .u 



Ao 9 



62.0 



/•4 



c « 



O-O 



c n 



o.v 





6.0 





5.2 



— '78 



O"; 



yo 



1 00 



OT 



lo 



lo 



1 n 

 1 u 





lSi 



SEI 



n Q 



9 



01.5 



60.4 



55*7 



09-" 



A 0 



U. ii 



C /I 



0.4 



4-7 



— 



5.2 



— 



4.0 



• A Q 



1 00 



1 00 



q8 



QO 



yy 



1 0 



8 



1 n 

 1 u 



S2 





STTi 



1 0 



10 



49.7 



/I r» 



40' / 



/I C 

 4 / -0 



— 6.8 



— Q 7 

 O- / 



Q 8 





4.5 



— 



3-0 



1 n 



1 00 



yo 



VO 



q6 



2 



6 



5 





SEi 



gĘi 





u 



43.4 



43.1 



45-2 



43.9 



— 1.6 



— 0.4 



— 0.9 





0.9 





0.0 



— 3.0 



92 



87 



98 



92 



2 



10 



0 





SE2 



SEI 



0.0 



1 o 





04.0 





54.0 



— 1 .2 



1,5 



— 0.2 





0.6 





1.8 



— 1.8 





y ' 



98 



V"-' 





lo 



lo 



0 

 0 





Wi 



Wi 



0.0 



1 o 





619 



u 1 .u 



60.6 



— r> 8 

 u.o 



n A 



. 0 A 



Z. 4 





1.2 





1.5 



Z.4 





8q 



loo 



Q6 



lo 



1 0 





Wi 



Wi 



w 



0.0 



14 



62.9 



A/1 c 



04-5 



Ac 1 



A /I 0 

 U4»z 



0.5 





1.4 





0.9 



— 



0.3 



— C T 

 0. / 



r\r\ 



90 



8q 



On 



On 



10 



1 0 



1 0 



ESI 







0.0 





0^.0 





Ac; A 



64.8 



— 9 A 



. Q A 



c A 



0'^ 





43 



— 



0.3 



— c; 8 



Q9 



8q 



Q6 



y^ 



10 



1 0 



1 n 

 i U 



ES2 



SEi 



gl 



0.0 



i6 



67.2 



66.9 



67 8 



67.3 



~ 5-2 



~ 5.7 



— 5.5 





5.5 





4.5 



- 6.5 



100 



98 



87 



95 



10 



0 



10 





Wi 



Wi 



0.0 



1 / 





66.9 



65.7 



66 7 



A A 



4-4 



2.0 



— 1 .0 





2.1 





1.0 



— 6.0 



oc 

 vo 



q6 



98 



q6 

 y^ 



10 



1 0 



1 0 





Wi 



Wi 



w 



0.2 



1 o 



A/In 



62.4 



62.4 



62.9 





0.8 



1 .0 





0.7 





1.5 



— 1.0 



q6 



q8 



q8 



07 



1 0 



10 



1 0 





Wi 



WSI 



0«1 



I o 



62.4 



52.6 



64.2 



6q 1 



u^. 1 



1 /I 

 ^ 4 



' "0 



1 .0 





1.2 





1 5 



1 "O 



8q 



q6 



loo 



0'^ 



yo 



lo 



10 



1 0 



SW' 



Wi 



W' 



0 0 



20 



U 1 jO 



t)0,U 



CA S 



o4-o 



cR /I 

 00.4 



1 n 

 1 .U 



U. / 







0.4 





2-8 



0.0 



09 





loo 



QA 



y^ 



] Q 



10 



0 









0.0 



21 



55.8 



54.5 



54.4 



54.9 



— 2.5 



1.5 



— 3.3 







0.7 





1.5 



— 3.3 



04 



72 



85 



84 



0 



0 



0 





SWi 



Wi 



0.0 



9 2 



Oo- J- 



Pv9 Pv 



Cl 1 

 01.1 







0.6 



A '0 





0.9 





2.7 





09 



82 



8q 



86 



/I 



1 0 



1 0 



ws^ 



SW2 



SWI 



0.0 





50.9 







P>Q A 



— 0. 1 



1.6 



— 0.2 





0.3 





2.7 



u. / 



q6 



yo 



96 



vo 



1 0 



10 



1 0 





SWI 



ES' 







Ul. 13 



60.6 



{30.0 



60 1 



2.2 



0 A 



0 c 



O'0 







2.9 





0.0 



3.7 



Q/1 

 V4 



q8 



yo 



q8 



yu 



07 



1 0 



1 0 



1 0 



El 



ES' 



SEI 







00. U 



C,0 zL 



oy*^ 



62.6 



60.0 





— Q Q 



0*0 



/I 8 



— 



4.4 



— 



2.0 



— /i 8 



q8 



Ql 



100 



q6 



lo 



1 0 



10 



ES^ 



El 



El 



0.0 



26 



69.3 



70.7 



71.8 



70.6 



— 44 



— 3.7 



— 5-1 







4.Ó 





4.3 



— 5.5 



93 



82 



90 



88 



10 



10 



10 



El 



El 



El 



0.1 



27 



77.8 



77.4 



77.4 



77.5 



- 6.7 



- 6.5 



—12.4 





9.5 





3-0 



— 12.4 



89 



87 



100 



91 



10 



10 



10 



El 



ES' 



E' 



0.2 



28 



75.8 



73 6 



69.4 



72.9 



— 13.2 



— 8.7 



—10.8 



— 



L0.8 





8.0 



—138 



100 



85 



93 



93 



0 



1 



0 



El 



E2 



ES2 



0.0 



29 



ÓÓ.9 



64.5 



59-9 



63.8 



— 12.2 



- 5.8 



— 8.1 





8.5 





5.5 



—12.7 



93 



80 



94 



89 



0 



0 



0 



SE2 



SE' 



ES' 



6.0 



30 



62.5 



61.9 



61.8 



62.1 



— 2.5 



— 1.7 



— 1.8 





2.0 





1.3 



— 8.0 



92 



90 



92 



91 



10 



10 



10 



WSI 



W2 



W2 



0.0 



31 



64.4 



65.4 



65.2 



65.0 



— 2.0 



— 1.3 



— 1.2 





1.4 





0.7 



— 2.8 



90 



96 



96 



94 



10 



7 



10 



Wi 



Wi 



Wi 



0.0 



śr.m.l 



61.5 



61.8 



61.3 



61.5 



— 3.5 



— 2.5 



— 3.5 





3.3 





1.3 



— 5.2 



94 



90 



95 



93 



8 



9 



8 









5.1 



Wilg wzgięd 



Stop. 

 zachm. 



Kierunek i siła wiatru 



UW, 



Michałów (St. 3). 



D. 



7 



1 



9 





7 



1 



9 





Max. 



Min 



7 



1 



9 





7 



1 



9 



1 7 



1 



9 



1 Uwagi 



1 



58.6 



58.6 



57.1 



58.1 



— 4-0 



- 2.1 



— 3.2 





3.1 





2.0 



- 5.8 



98 



90 



91 



93 



10 



10 



10 



NE3 



NE2 



NE* 



0.0 





2 



55-2 



55.5 



56.5 



55.7 



- 3.6 



— 2.2 



— 2.2 





25 





1.5 



— 4.0 



98 



96 



98 



97 



10 



10 



10 



N* 



NE3 



N2 



1.2 





3 



56.6 



56.8 



59.1 



57.5 



— 1.2 



— 0.8 



— 0.8 





0.9 





0.5 



— 2.5 



92 



88 



94 



91 



10 



10 



10 



NE3 



NE2 



NE2 



0.0 





4 



62.2 



64.4 



68.6 



65.1 



— 0.8 



0.2 



- 1.6 





0.9 





0.2 



— 2.0 



96 



81 



92 



89 



10 



10 



10 



NE2 



El 



El 



1-5 





5 



70.1 



70.6 



71.2 



70.6 



— 3.3 



- 5.Ó 



- 7.8 





6.1 





1.0 



— 8.0 



94 



87 



89 



90 



10 



0 



3 



NEi 



NEI 



NEI 



0.0 





6 



71.8 



69.5 



69.7 



70,3 



- 6.4 



— 6.0 



- 6.4 





6.3 





5.5 



— 9.0 



95 



85 



90 



90 



10 



10 



10 



NE2 



NEI 



NEI 



0.0 





7 



67-4 



65.3 



63.1 



65.3 



— 6.8 



- 5.6 



— 6.0 





6.1 





50 



— 8.0 



92 



93 



90 



92 



10 



10 



10 



E2 





W 



0.0 





8 



61.5 



62.8 



62.4 



62.2 



- 7.6 



— 5.9 



— 6.0 





6.4 





5.5 



— 8.5 



95 



87 



95 



92 



10 



10 



10 



E2 



SEI 



0 



0.3 





9 



61.1 



59.7 



55.8 



58.9 



— 6.2 



— 4.1 



— 5-0 





5.1 





3-0 



— 7.0 



93 



91 



95 



93 



10 



5 



10 



0 



0 



0 



0.0 



* 



10 



49.5 



46.4 



44.5 



46.8 



- 7.8 



— 4.4 



— 30 





4-5 





3.0 



— 8.5 



100 



loo 



89 



96 



3 



4 



10 



SE2 



SE' 



S3 



2.9 





11 



44*0 



431 



45.5 



44.2 



— 2.4 



— 0.5 



- 1.8 





1.6 





0.0 



— 3-0 



92 



86 



92 



90 



10 



10 



10 



0 



0 



0 



0.0 





12 



49.0 



53.4 



57.6 



53.3 



— 1.9 



1.5 



— 0.8 





1.2 





1.5 



— 2.5 



96 



93 



88 



92 



10 



10 



10 



0 



0 



0 



0.0 





13 



59.9 



61.1 



63.3 



61.4 



— 1.3 



1.2 



— 3.6 





1.8 





1.2 



— 4.0 



96 



89 



87 



91 



10 



10 



10 



NWi 



NWi 



NWI 



0.0 





14 



63.9 



64.4 



64.1 



64.1 



— 1.6 



— 0.3 



— 1.8 





1.4 





0.3 



— 4-5 



92 



87 



92 



90 



10 



10 



lo 



NEi 



E2 



W 



0.0 





15 



63.9 



64.4 



Ó5.8 



64.7 



— 2.8 



— 2.0 



— 6.0 





4.2 





2.0 



— 6.5 



94 



94 



90 



93 



10 



10 



lo 



SE' 



SE2 



SEI 



0.0 





16 



6Ó.7 



67.1 



683 



67.4 



— 5.7 



— 6.0 



- 5.6 





5.7 





5.5 



— 7.0 



98 



95 



93 



95 



10 



10 



10 



W2 



Wi 



Wi 



0,0 





17 



67.3 



66.2 



64.7 



66.1 



- 4.6 



— 1.8 



— 0.7 





1.9 





0.7 



— 6.0 



95 



92 



92 



93 



10 



10 



10 



SWI 



SW2 



SW2 



0.3 



* \ 



18 



64.2 



62.9 



61.7 



62.9 



0.0 



0.8 



0.8 





0.6 





1.0 



— 1.0 



94 



96 



98 



96 



10 



10 



10 



SW2 



SW2 



SWI 



0.0 





19 



61.0 



62.3 



64.8 



62.7 



1.3 



1.6 



0.8 





1.1 





20 



0.8 



96 



94 



loo 



97 



10 



10 



10 



SW' 



SW2 



SWI 



0.0 



1 



20 



61.2 



58.6 



55.9 



58.6 



0.7 



1.6 



0.7 





0.9 





1.6 



— 1.0 



94 



93 



66 



84 



10 



10 



5 



S2 



SI 



SI 



0.0 



p 



21 



55.7 



54.9 



54-3 



54.9 



— 3-1 



— 1.1 



— 2.5 





2.3 





0.0 



— 4-0 



91 



88 



94 



91 



10 



10 



10 



SWI 





W2 



0.0 





22 



52.4 



51.4 



51.9 



51.9 



- 4.6 



0.5 



— 0.9 





0.6 





1.0 



— 5.0 



95 



92 



89 



92 



0 



10 



10 



SW2 



SW' 



SWI 



0.0 





23 



53 5 



53.3 



58.0 



54-9 



— 1.6 



1.6 



— 1.5 





0.7 





2.0 



— 2.0 



96 



93 



96 



95 



10 



10 



10 



Wi 



W' 



W2 



55 





24 



60.1 



598 



58.1 



59.3 



— 2.8 



— 1.5 



- 3.8 





2.9 





1.5 



— 4.0 



98 



96 



95 



96 



10 



10 



10 



0 



0 



0 



0.0 





25 



58.4 



59.4 



64.0 



60.6 



4.6 



— 3.7 



— 4.9 





4-5 





2.0 



— 5-0 



95 



93 



93 



94 



10 



10 



10 



0 



0 



0 



0.0 





26 



69.1 



70.7 



74-4 



71.4 



— 4.3 



- 3.6 



— 5.1 





4.5 





1.5 



— 5.5 



91 



93 



98 



94 



10 



10 



10 



0 



0 



0 



0.0 





27 



76.5 



76.5 



78.4 



77.1 



— 7.0 



— 1.2 



—13.5 





8.8 





0.5 



—13.5 



94 



90 



92 



92 



10 



5 



0 



NEI 



NE' 



NEI 



0.0 





28 



76.2 



73.2 



70.4 



73.3 



—13.9 



—10.3 



—12.5 





12.3 





9.0 



-150 



91 



90 



92 



91 



0 



2 



0 



NEI 



NE2 



NEI 



0.0 





29 



64.7 



62.Ó 



61.5 



62.9 



—12.8 



- 8.7 



- 9.8 





10 3 





8.0 



—14.5 



92 



88 



94 



91 



0 



0 



0 



NEI 



NEI 



NEI 



0.0 





30 



61.5 



62.1 



62.2 



61.9 



- 2.2 



- 1.8 



— 1 9 





1.9 





1.8 



— 10.0 



92 



94 

 98 



98 



95 



10 



10 



10 



0 



W2 



W2 



0.0 





31 



63.7 



64.4 



66.2 



64.8 



— 2.1 



— 0.9 



— 1.3 





1.4 





0.9 



— 30 



98 



98 



98 



10 



10 



0 





W2 



W' 



0.0 





śr.m. 



61.5 



61.3 



61.9 



61.6 



— 4.0 



— 2.3 



— 3.7 





3.4 





1.6 



- 5.8 



95 



91 



92 



93 



9 



9 



8 









11.7 





