38 



Piotrków. (St. 25.) dział i. meteorologija i hidrograpija. Marzec (Mars) 1889 r. 



Bartn. sprow. 



do 00=700 mm 



Termometr suchy 



Termograf 



Wilgo względ. 



Stop. 

 zachm. 



Kierunek i siła wiatru 



o 



7 



1 



9 





7 



1 



9 





Max. 



Mili. 



7 



1 



9 





7 



1 



9 



7 



1 



9 







i 1 



35-6 



36.1 



38.9 



36.9 



— 9.0 



— 



8.0 



— 6.2 



— 7-3 







94 



100 



95 



96 



10 10 



10 



NE2 



NE3 



NEi 



0.5 





2 



38.2 



38.6 



40.7 



39.2 



— 6.8 



— 



4.4 



— 6.8 



- 6.2 









94 



95 



89 



93 



10 10 



10 



0 





WN2 



3-7 





i 3 



43.6 



44.3 



46.3 



44.7 



— 8.0 



— 



3-4 



— 8.4 



— 7.0 









77 



95 



82 



85 



10 



9 



10 



Wi 



Wi 



Wi 



0.0 



1_J GO 



4 



46.7 



48.8 



49.6 



48.4 



—15.8 





3.0 



— 10.6 



— lo.o 











90 



9ó 



86 



91 



0 



0 



0 



Wi 



WSI 



WSI 



0.0 





1 5 



49.6 



50.4 



54.1 



51-4 



—10.8 







5.4 



—11.8 



— 9.9 



— 



— 



93 



96 



93 



94 



10 



0 



0 



WSI 



SI 



S2 



0.0 



U 



6 



50.9 



50.1 



50.5 



50.5 



-17 2 



— 



5.8 



— 5.4 



— 8.4 







89 



95 



90 



91 



5 



0 



lo 



0 



0 



SI 



0.0 





j 7 



51-3 



50.0 



52.3 



51.2 



— 5.0 



— 



2.2 



— 7.6 



— 5.6 











100 



92 



89 



94 



10 



10 



0 



0 



SI 



SI 



0.0 



00 u 



8 



46.9 



47.0 



45-5 



46.5 



— 15.0 



— 



1.2 



— 5.2 



— 6.6 



_ 





100 



80 



85 



88 



0 



0 



0 



SI 



SE3 



SE2 



0.0 





9 



46.4 



41.1 



40.3 



42.6 



— 11.2 





1 .0 



— 3-4 



■ — 4-9 











93 



84 



87 



88 



0 



0 



0 



SEi 



SE2 



SEi 



0.0 





10 



41.8 



49-3 



44.8 



45.3 



— 0.2 







4.6 



— 0.2 



— 1.3 



— 



— 



85 



84 



96 



88 



10 



10 



0 



SE' 



SE2 



SEi 



0.0 





11 



40.7 



37.9 



34-6 



37-7 



0.0 





5.0 



2.4 



2.4 







96 



87 



96 



93 



10 



10 



10 



SE2 



SE- 



SEi 



0.0 





12 



40.9 



42.4 



46.8 



43.4 



2.2 





4.0 



0.4 



1.7 











96 



90 



92 



93 



10 



10 



10 



SEi 



W^ 



WN3 



0.6 





13 



45-2 



44-0 



40.2 



43.1 



- 0.6 





1.5 



— 0.8 



— 0.2 











92 



76 



100 



89 



10 



10 



10 



NW2 



W3 



WSI 



0.0 





14 



34-5 



34.8 



37.2 



35.5 



0.6 





0.4 



— 2.4 



■ — 0.9 











85 



92 



100 



92 



10 



lo 



10 



WS3 



w^ 



WN* 



0.0 





15 



39.0 



40.7 



44.1 



41.3 



— 10.0 



— 



9-4 



— 11.0 



—10.3 



— 



— 



100 



94 



79 



91 



10 



10 



10 



WN* 



WN^ 



W 



1.0 





i6 



48.2 



48.3 



45.8 



47-4 



—12.6 



■ — 



10.2 



— 11.4 



— 11.4 







84 



93 



93 



90 



10 



1 



10 





NW3 



W3 



0.0 





17 



39.7 



39-0 



36.9 



38.5 



— 7-2 



— 



1.4 



— 0.2 



— 2.2 











95 



96 



85 



92 



10 



10 



10 



WS^ 



WS3 



ws* 



0.7 





i8 



37.2 



39.0 



39.3 



38.5 



— 2.4 



— 



0.6 



— 4.0 



— 2.7 



■ 







100 



85 



93 



93 



10 



] 



0 



W* 





0 



0.0 





19 



40.0 



39.2 



36.1 



38.4 



— 2.4 





1 .0 



— 0.2 



— 0.3 



, 



, 



92 



71 



92 



85 



lo 



0 



10 



{) 



SI 



SI 



0.0 





20 



33.7 



31.2 



28.7 



31.2 



0.2 





8.6 



4.2 



4.3 



— 



— 



85 



84 



80 



83 



9 



9 



10 



{) 



S2 



SI 



0.0 





21 



24.8 



232 



23-9 



24.0 



3.6 





5.4 



2.4 



3.4 







90 



100 



93 



94 



10 



10 



10 



s^ 



SI 



WS2 



0.1 





22 



30.9 



34.8 



40.4 



35-4 



0.8 





2.8 



— 1.4 



0.2 











92 



89 



92 



91 



10 



10 



10 





W2 



WN3 



0.0 





23 



44.9 



44-5 



45.3 



44-9 



— 3.6 





2.0 



0.8 



0.0 



. 





87 



64 



89 



80 



9 



5 



10 





WS3 





0.0 





24 



45.7 



45.0 



44-5 



45-1 



2.0 





5.6 



3-2 



3.5 



_ 







89 



82 



97 



89 



1 r\ 



10 



10 





W3 



W3 



0.0 



I 



25 



42.2 



41-3 



40.5 



41.3 



3.2 





5.2 



5.2 



4.7 





. 



100 



100 



97 



99 



10 



10 



10 





W3 



Wi 



0.7 



• 1 





37.7 



35-9 



35-0 



36.2 



3.8 



112 



5-6 



6.5 







97 



85 



97 



93 



10 



10 



10 



0 



sw ^ 



0 W ^ 



0.0 



=• 



27 



33.6 



33-6 



35-4 



34.2 



2.6 





4.2 



1.6 



2.5 



Z 





100 



97 



93 



97 



10 



10 



10 



N2 



WN3 



WN* 



0.0 





28 



39.5 



42.8 



44.6 



42.3 



— 0.6 





0.2 



0.8 



0.3 







96 



100 



85 



94 



10 



10 



10 





WN3 



WN* 



0.4 





29 



44.2 



42.6 



38.3 



41.7 



— 0.6 





1.8 



0.8 



0.7 







92 



85 



92 



90 



10 



10 



10 









0.4 





30 



3Ó.0 



35.8 



37.1 



36.3 



0.7 





3.8 



— O.Ą 



0.9 







90 



90 



89 



90 



10 



10 



0 







W 



0.0 





31 



39.1 



40.5 



40.4 



40.0 



— 1.2 





0.8 



0.0 



— 0.1 







84 



100 



92 



92 



10 



10 



10 



MW 



WN2 



WNi 



0.0 





śr.m 



40.9 



41.0 



41.2 



41.0 



— 3-9 





0.4 



— 2.1 



— 1.9 







92 



90 



91 



91 



9 



7 











8.1 





SoMessyn. (St. 26). 



D.| 



7 



1 



9 





7 



1 



9 





Max. 



Min. 



7 



1 



9 





7!. 



9 



7 



1 



9 1 



Uwagi. 



l 



41.3 



41.7 



43.6 



42.2 



— 8.5 





4.4 



- 3.8 



— 5.1 



— 3.8 



— 9.9 



94 



88 



87 



90 



10 



10 



10 



W 



E4 



W 



0.0 





2 



43.0 



42.0 



42.6 



42.5 



- 4.6 





2.5 



— 1.6 



— 2.6 



— 1.1 



- 4.6 



100 



100 



98 



99 



10 



10 



10 



E'^ 



E2 



E'^ 



7.5 





3 



45-5 



47.4 



49.7 



47.5 



— 8.9 





3-1 



— 9.9 



— 8.0 



— 1.1 



— 9.9 



97 



96 



97 



97 



10 



10 



10 



SW2 



SW^ 



W 



0.1 





4 



53-3 



55-3 



57-0 



55.2 



— 17.0 





3.5 



- 7.6 



— 8.9 



— 2.7 



-182 



95 



98 



97 



97 



10 



10 



0 



El 



E3 



NE3 



0.0 





5 



59.0 



59.1 



59.7 



59.3 



—17-3 





11.2 



—16.6 



—15-4 



— 6.3 



—17-3 



95 



93 



95 



94 



5 



0 



0 



W 





W 



0.0 





6 



59.5 



59.0 



57-9 



58.8 



—18.6 





3-3 



— 4.8 



— 7-9 



— 2.3 



—18.0 



89 



100 



90 



93 



0 



10 



10 



W 



w 



W 



0.0 





7 



56.9 



57.4 



58.0 



57-4 



— 8.8 





6.2 



—10.5 



— 9.0 



— 4.4 



10.4 



88 



87 



90 



88 



10 



2 



3 



NE3 



NE3 



E2 



0.0 





8 



56.6 



57-6 



54-6 



56.3 



— 9.9 





6.3 



—13.9 



— 11.0 



— 37 



—15.0 



97 



95 



91 



94 



10 



0 



0 



SE3 



SE3 



W 



0.0 





9 



52.6 



51.6 



51-4 



51.9 



— 8.2 





5.2 



- 7.8 



— 7-2 



— 3.8 



—13.3 



94 



88 



94 



92 



10 



0 



0 



NE3 



E3 



E2 



0.0 





10 



51.6 



51.8 



52.0 



51.8 



—10.8 





2.7 



- 3.6 



- 3.8 



4-9 



-11.4 



97 



75 



98 



90 



5 



10 



2 



E2 



0 



() 



0.0 





11 



50.3 



48.4 



46.4 



48.4 



— 8.3 





0.5 



— 1.1 



2.5 



2.6 



— 8.3 



97 



89 



94 



90 



3 



5 



4 



SE2 



E3 



E3 



0.0 





12 



44.2 



44-7 



48.2 



45-7 



0.8 





5.4 



08 



2.0 



7-3 



— 1.0 



96 



80 



92 



89 



10 



8 



10 



S2 



g2 



§2 



0.0 





13 



50.8 



50.6 



48.1 



49.8 



0.0 





3.2 



— 1.4 



0.1 



4.0 



— 1.3 



83 



76 



96 



85 



10 



10 



6 





Wi 



Wi 



0.0 





14 



42.3 



39.7 



41.0 



41.0 



— 2.1 





2.8 



— 1-3 



— 0.5 



3.2 



— 4-4 



98 



84 



90 



91 



10 



10 



10 



W3 



W3 



W* 



1.1 



Hit 



15 



43.1 



45.3 



48.8 



45.7 



— 84 





7-7 



— 9-6 



— 6.8 



— 0.8 



— 9.7 



91 



92 



97 



93 



3 



10 



10 





NW3 



NW3 



0.2 





16 



v52.9 



54.3 



53-6 



53.6 



— 12.2 





8.3 



—13.7 



— 12.0 



- 6.9 



—13.6 



93 



100 



100 



98 



10 



4 



0 



w 



NW3 



Wi 



0.0 





17 



47.6 



44.3 



41.0 



44.3 



— 10.0 





3.1 



— 1.4 



— 4.2 



— 0.9 



— 14-.8 



97 



100 



98 



98 



10 



10 



10 



SW3 



NW* 



W* 



0.1 





18 



42.2 



43-1 



45-3 



43.5 



— 2.8 





0.8 



— 6.4 



— 4.1 



1.4 



— 6.1 



98 



92 



97 



96 



10 



6 



1 





W^ 



W2 



0 0 





19 



46.9 



47.5 



44.6 



46.3 



— 10.0 





1.4 



— 4-2 



— 5.0 



0.0 



—14-0 



97 



100 



91 



96 



1 



0 



10 



El 



SEi 



E2 



0.0 





20 



40.8 



39.3 



37.6 



39-2 



— 2.4 





7-5 



3.5 



3.0 



9.7 



■ 3.9 



98 



65 



85 



83 



8 



10 



3 



SE2 



SI 



S2 



0.0 





21 



33,6 



321 



32.4 



32.7 



4.7 





6.1 



3-3 



4.4 



7.0 



2.6 



79 



83 



90 



84 



10 



10 



10 



SE4 



SEi 



SE3 



1.1 





22 



35.5 



40.5 



45.5 



40.5 



1.4 





2.5 



— 0.4 



0.8 



4.8 



0.0 



89 



85 



85 



86 



10 



10 



10 



W* 



W3 



W* 



0.0 





23 



50.0 



504 



49.4 



49-9 



— 3.9 





0.3 



• 0.8 



— 0.5 



0.9 



— 4-3 



98 



81 



89 



89 



0 



9 



10 



W3 



NW3 



NW* 



0.1 





24 



51.0 



50.3 



49.5 



50.3 



— 0.1 





4.2 



2.4 



2.2 



4.6 



0.4 



100 



76 



98 



91 



10 



10 



10 



W3 



W3 





0.6 





25 



47.7 



46.8 



46.5 



47-0 



2.4 





3.4 



2.4 



2.7 



3.7 



1.9 



98 



97 



100 



98 



10 



10 



10 



W3 



W3 





2.8 





26 



45.8 



43.5 



42.0 



43-8 



2.6 





8.0 



3.8 



4-5 



9.0 



2.3 



100 



93 



97 



97 



10 



7 



0 



W3 



SE2 



w 



0.0 





27 



39.5 



39-3 



39.7 



39.5 



2.7 





5.2 



3-0 



3-5 



6.3 



1.8 



91 



87 



93 



90 



10 



10 



10 



NE2 



NE2 



E3 



0.0 



• A* 



28 



42.7 



41.4 



49.3 



44.5 



0.7 





2.1 



0.0 



0.7 



3.4 



0.0 



94 



71 



81 



82 



10 



8 



0 



W 



NE* 



NWi 



0.5 



29 



49.9 



48.3 



45.4 



47-9 



— 2.2 





1.9 



0.6 



0.2 



2.9 



— 2.8 



87 



75 



92 



85 



1 



6 



10 





NWi 



NEi 



0.0 





30 



41.8 



41.8 



42.3 



42.0 



0.8 





2.9 



0.6 



1.2 



3-9 



0.4 



96 



82 



90 



89 



10 



10 



7 



NE2 



NW2 



NE2 



0.0 





31 



43.1 



45.8 



46.5 



45.1 



— 1.2 





0.3 



0.2 



— 0.1 



1.2 



— 1.3 



73 



92 



100 



88 



10 



10 



10 





NW2 



Wi 



0.1 



1 



1 śr.m. 



47.1 



47.1 



47.4 



47.2 



- 5.2 





0.2 



— 3.2 



— 2.9 



1.4 



- 6.3 



94 



87 



93 



91 



8 



8 



6 









14.2 





