68 DaILy METEOROLOGICAL OBSERVATIONS DURING JANUARY AND FEBRUARY, 1850. 








































Gaieniaed 11 a.M., Gottingen = 5 p.M., Gottingen = mierie: Force of 
Dadi Mewes Mhe PO et craton eee eee Alacer site |) aera Wind. || Direction of Wind 
af Mean Time. Mean Time. J 
j Rain at the following 
| Civil Day. . Men. en Rel. Menlo Rel. in oe 
oo ee ae of | of ett ey of | of caren Min. | Max. ‘oe Max.|Mean.* 
Be | |e ES aa hc iis 20%, 23>, Ob, 5h 
Jan. 1 39.7 6-9 || 30-046] 33-0) 31-9} 91 || 30-007| 33-8] 32-7; 90 || 19-6 37-0 i 0-0 — 16, —_ — 
l 2 || 36-7| 10-0 || 29-976) 37-2) 36-3) 92 || 29-962) 37-6 37-3| 97 || 22-8] 39-5 t 0-1 | — 24, — 24 
3 || 42-3] 10-0 || 29-749] 42-9) 42-3) 95 || 29-655) 43-2) 42-9) 98 || 33-2) 45-2 0-5} 0-2 || — 22, — 20 
4 || 36-4 3.0 || 29-217] 37-4| 35-8) 87 || 28-936] 36-8] 35-3) 88 || 28-3) 40-0] -014 || 1-3) 0-3 || — 18, — 20 
5 130-9 3.6 || 28-921! 33-6) 31-7) 84 || 29-061] 29-7| 28-4) 89 || 27-0) 35-5 1-9} 0-1 || — 21, — 20 
7 1\31-2 7.2 || 29-773] 30-1] 30-2) 100 || 29-913] 33-8) 31-9} 84 || 16-7) 35-0 0-7; 0-1 | — 28, — — 
S lige Ovl| 30-036) 24-6) 235) «BO: || eer selpe eek |e siaeeee 15-0] 31-6 + 0:04): a ee 
9 || 26-5 5.0 || 30-025] 24-4) 24-1} 96 || 30-011} 30-1) 30-0) 99 || 12-8) 30-5 i 0-0 || — — — ~~ 
10 || 29.9 9-9 || 29-782) 30-3]------| --+--- 29-638} 30-9] 31-0} 100 || 25-0) 34-0 if 0-0 | — 16, — 24 
11 || 29-3) 10-0 || 29-634] 29-7] 29-6} 99 || 29-689] 30-3] 30-4) 100 || 23-6) 32-5 if 0-1 | — 16,— 4 
12 || 32.2] 10-0 || 29-895] 33-6) 32-1) 87 || 29-914) 32-3) 32-3) 100 || 26-0] 34-2 ft 0-3 ]— 4,— 6 
14 || 27-5 7.2, || 29-789] 26-4| 25-9) 95 || 29-735) 30-1) 27-9} 80 || 22-3) 33-2 T 0-1) — 4,— 8 
f 15 || 24.2 7.0 || 29-568] 23-7| 23-5} 98 || 29-458) 26-1] 25-9} 98 || 15-8] 31-5 if 0-1 | — 8— 6 
16 || 31-2) 10-0 || 29-383) 31-8] 31-3} 96 || 29-440} 32-0) 31-8) 98 || 20-2) 34-3]| -590 t 0-1 | — 4,— 8 
17 || 25-5 7-5 || 29-702) 31-3} 30-8) 96 || 29-742) 21-2) 21-5) 100 || 25-0) 29.0 t 0-0 || — 20, — -~ 
: 18 || 24-8} 10-0 || 29-675] 19-8] 19-9} 100 || 29-531] 31-3) 30-4) 92 1-2) 32-6 + 0-2 | — 16, — 12 
19 || 31-4) 10-0 || 29-363} 32-6) 32-6) 100 || 29-552) 31-6; 31-6) 100 || 27-8) 35-5 1 10/— 6,— 6 
21 || 27-0) 10-0 || 30-079) 27-1] 27-2) 100 || 30-104) 28-4) 28-4) 100 || 22-2) 32-0) .298 if 0-1 — 14,— 17 
92 || 34-8] 10-0 || 30-143] 34-8] 34-1) 93 || 30-127] 36-3} 36-1} 97 || 21-2) 38-0 a 0-6 || — 18, — 22 
93 || 42.5 7-0 || 30-138] 44-2) 42-3) 86 || 30-115] 42-2)40-8} 89 || 32-2) 49-0 T 0-3 | — 19, — 18 
94 || 40-1 7.0 || 30-024] 41-1] 39-3} §6 || 29.924] 40-5] 38-7) 85 || 31-2) 45-5 t 0-2 | — 20; — 21 
95 || 38-2 9.5 || 29-478] 37-4| 37-3] 99 || 29-418] 40-4) 38-9] 88 || 32-2) 42-1 ot 0-1 || — 18, — 26 
96 || 30-0 5-1 || 29-269] 32-8) 33-1] 100 || 29-640} 28-7| 28-4) 97 || 28-8) 34.2 5:2} 1-0 | — 31, — 31 
28 145.3 9.2 || 29-370] 45-0] 44-0} 93 |) 29-255) 47-0} 43-1] 75 | 24-6) 49-9) -717 || 5-2} 1-2 | — 18, — 22 
29 || 33-2 3-0 || 29-789] 35-0] 32-3) 77 || 29-856) 32-8] 30-7| 82 | 28-8) 49-0 0-5) 0-0 || — 26, — — 
30 || 32-7 9-5 || 30-000] 31-5) 30-4) 90 || 30-005) 35-4] 33-3} 81 || 22-2) 39-0 0-1) 0-0 || — 24, — 25 
31 || 34-7] 10-0 || 29-807] 33-6] 33-3) 97 || 29-581) 37-3] 36-3) 91 || 23-8) 39-0 0-2} 0-0 | — — — — 
Feb. 1 || 44-2 7-3 || 29-206) 46-5] 45-8) 95 || 29-082) 46-0} 42-3) 75 || 33-0) 49-2) -212|/ 2-5] 0-6 | — 18, 18, 18 
9 || 44.3 8-9 || 29-284] 45-6) 43-5} 86 || 29.097) 44-3) 43-6) 96 || 40-2) 49-0, 4-8| 0-7 || 20, 20, 22, 19 
4 || 38-0 8-7 || 29-561) 39-8| 37-7| 84 || 29-475] 39-2) 37-5} 86 || 30-S| 44-8 2-3) O-2 || 20, 21 0Sy dea 
5 | 36-1 8-0 |) 29-146} 36-2) 34-3} 84 || 28-466] 42-0) 41-9) 99 || 28-0] 42-8] -244 || 6-6| 1-3 18, 18, 18, 17 
6 || 37-1 3-7 || 28-436] 40-2) 37-3) 78 || 28-703| 37-0] 34-6) 81 || 29-8) 43-0] -430]| 7-2) 2-9 || 24, 27, 27, 27 
7 || 35-2 0.4 29-068 35-6) 32-5} 75 || 29-159] 37-5] 33-5| 69 || 28-8) 40-8 2-4. 0-7 || 24, 24, 25, 25 
8 | 37-7] 10-0 || 29-122) 33-3) 33-1} 98 || 29-075] 44-2] 44-2! 100 || 28-2) 47-0] -188)) 2-1] 0-1 17, U6; eee 
9 || 42-7 7.2 || 28-717) 45-0) 43-3} 88 || 28-564] 40-4) 37-7] 80 || 40-2) 49-2) -4361/10-02 5-12 18,219, 22, 20 
11 || 34-6} 10-0 || 28-274) 39-0) 37-8} 91 || 28-656] 32-0) 32-1) 100 || 30-0) 40-2) -265 || 2-2} 0-3 || 20, 16, 12, 2 
12 || 31-4 6-7 || 28-925] 33-6] 32-7] 92 || 28-971] 33-0} 32-5) 96 || 22-4) 39-5) -485 || 2-6) 0-2 || 21, 22, 23, 26 
13 || 28-6 1-6 || 29-776) 29-3] 27-9} 87 || 29-870] 30-9] 30-4} 94 || 23-2) 34-0 3-8} 0-2 || 28, 26, 22, — 
14 || 40-8] 10-0 || 29-464| 39-5] 38-9} 95 || 29-458) 46-6) 45-5) 92 || 25-6) 48-6 2:4| 0-5 18,48, 20 ete 
15 || 49-7 8-6 || 29-462] 53-2) 49-9) 81 || 29.425) 49-9} 48-5) 91 || 42-8) 55-8 3-0| 1-4 || 19, 22, 19, 20 
16 || 39-5 1-4 || 29-539) 40-3) 36-8} 73 || 29-761] 40-6) 38-2) 82 || 33-8) 44-8]| -190|| 5-0} 1-7 || 26, 25, 26, 25 
18 || 45-8} 10-0 || 29-702) 47-6) 45-6) 86 || 29-706) 47-0) 45-5] . 89 || 40-0) 49-5 3-9)! 1-9) || 29, 19) 205 
19 || 42-9 8-8 || 29-558] 46-0) 44-8} 92 || 29-438) 36-6) 36-8) 100 || 42-0) 50-9 4-1] 1-7 19, 18, 17008 
20 || 42-3 2-6 || 29-573) 45-0) 40-9} 72 || 29-668] 40-2) 38-1] 83 || 40-2) 47-2 4:5} 1-0 || 20, 22, 24, 21 
21 | 46-1 7-0 || 29-450] 47-5) 42-7; 69 || 29-446] 49-2) 44-6) 71 || 33-3) 51-0) -197||11-4| 7-3 || 22, 26, 26, 26 
22 || 48-5 6-4 || 29-905] 50-0) 46-6; 79 || 29-981] 49-2) 45-5} 76 || 44-0) 53-6 10-5) 1-6: || 25,-24, 26,22 
23 || 44-1 9-8 || 29-929] 46-0) 42-7) 77 || 29-902) 45-2) 41-5) 74 || 35-2) 48-4 2-3] 1-0 || 20, 20, 23, 20 
25 || 41-0 7:3 || 30-076] 42-6] 39-8} 79 || 30-053] 44-6) 43-3} 91 || 33-2) 47-0 1-1} 0-2 || — 24, 20, 20 
26 || 42-7 1-2 || 30-057] 45-0) 42-3} 81 || 29-989) 46-5) 42-5) 73 || 29-8] 40-0) 2-8| 0-7 || 20, 20, 17, 20 
27 || 46-0 9-4 || 29-955) 47-0| 44-7} 84 || 29-933) 48-4) 46-1) 84 || 40-0} 52-0 4-2] 0-3 || 24, 22, 19, 24 
98 || 43-5! 10-0 || 29-919] 44-8] 43-1| 88 || 29-889] 46-0] 43-6) 83 || 33-0) 49-5 0-7; 1-1 | — — 20, 20 




* See Introduction for a description of the methods by which these means have been obtained. 
t+ Anemometer frozen. { Found by observing smoke, 

