160
ALLGEMEINE THEORIE
B reite
Länge
Berechn.
Declination
Beobacht.
Untersch.
51
Astrachan
+ 46°
20'
48°
0'
+ i°
40'
4- i°
12'
4-o°
28'
5*
Chologur
46
0
HO
34
— 0
20
+ 0
49
I
9
53
Ergi
45
32
in
2 5
— 0
6
+ i
7
I
13
54
Mailand
45
28
9
9
-f- 20
56
+ 18
33
4- 2
2 3
55
Sendschi
44
45
HO
26
— 0
20
-f- 0
3°
— 0
Sc
56
Batchay
44
21
H2
55
+ 0
16
+ 0
59
O
43
57
Scharabudurguna
43
13
II4
6
4- 0
3 2
+ '0
46
— 0
14
58
Neapel
40
5 2
H
16
-|- 18
53
4-15
Sb
4- 3
33
59
Chalgan
40
49
II4
58
-(- 0
4 2
+ i
13
— 0
3 1
60
Pekin
39
54
Il6
26
+ 0
58
+ i
48
— O
50
61
Terceira
38
39
33 2
47
+ 2 5
17
+ 24
18
+ 0
59
62
San Francisco
37
49
*37
35
— 16
22
—14
55
— i
27
6 3
Port Praya
14
54
336
30
+ 16
17
+ 16
3°
O
13
64
Madras
+ *3
4
80.
17
— 4
1
65
Galapagos Insel
O
50
270
2 3
- 8
57
— 9
30
4- 0
33
66
Ascension
7
56
345
36
+ *4
37
+ 13
3°
+ 1
7
67
Pernambuco
8
4
3 2 5
9
+ 5
58
+ 5
54
4-0
4
68
Callao
12
4
282
5 2
— 9
3 2
—10
0
4* 0
28
69
Keeling Insel
1 12
5
96
55
+ 0
2 3
4- i
12
— 0
49
70
Bahia
12
59
3H
3°
+ 3
12
+ 4
18
„ 1
6
71
St. Helena
15
55
354
17
+ 19
27
+18
0
4-1
27
72
Otaheite
17
29
210
3°
— 5
45
— 7
54
4- 2
9
73
Mauritius
20
9
57
31
+ 11
9
+ h
18
.#■■■—0
9
74
Rio de Janeiro
22
55
316
51
— I
11
— 2
8
4- 0
57
75
Valparaiso
33
2
288
J 9
— *3
45
—15
18
4-1
33
76
Sydney
33
5 1
151
17
— 7
51
— IO
2 4
4- 2
33
77
Vorg. d. g. Hoffn.
34
11
18
26
+ 2 7
24
4* 28
3°
I
6
78
Monte Video
34
53
303
47
— h
2 3
—12
0
-h 0
37
79
K. Georgs Sund
35
2
117
56
+ 5
12
4- 5
36
— 0
24
80
Neu Seeland
35
16
174
0
— 11
IO
—14
0
4- 2
50
81
Concepcion
36
42
286
5°
— H
43
—16
48
4- 2
5
82
Blanco Bay
38
57
298
I
12
57
—15
0
4“ 2
3
83
Valdivia
39
53
286
31
— l6
13
—17
3°
+ 1
17
84
Chiloe
41
51
286
4
— l6
56
—18
0
4-1
4
85
Hobarttown
42
53
147
2 4
— 5
51
II
6
4-5
15
86
Port Low
43
48
285
58
— 17
3 2
—.19
48
4- 2
l6
87
Port San Andres
46
35
284
2 5
— 19
4
— 20
48
4-1
44
88
Port Desire
47
45
2 94
5
— 16
5 2
20
<12
4- 3
20
89
R. Santa Cruz
S©
7
291
3 6
— 18
2 3
— 20
54
4- 2
3 1
90
Falkland Insel
51
3*
301
53
— 15
16
*9
O
4- 3
44
91
Port Famine
— 53
38
289
2
— 20
28
— 23
O
4- 2
3 2
8*
Port Etches
-f- 60
21
213
19
— 28
33
— 31
38
4- 3
5
8**
Lerwick
60
9
358
53
+ 2 7
10
4- 2 7
l6
— 0
6
11*
Stockholm
+ 59
20
18
4
+ iS
22
4-14
57
4- 0
2 5
34*
Valentia
+ 51
56
349
43
+ 3°
2
4" 28
43
4-1
19
4°*
Brüssel
+ 50
5*
4
5°
+ 2 3
2 3
4- 22
19
4-1
4
54*
Montreal
+ 45
2 7
286
3°
+ 5
2 3
4- 7
30
— 2
7
62*
Oahu
17
202
0
12
19
IO
40
— i
39
64*
Panama
1 + 8
37
280
31
— 6
44
— 7
37
4- 0
53
DES ERDMAGNETISMUS,
161
Berechn.
Inclination
Beobacht.
Untersch.
Berechn.
Int ensitä
Beobacht.
Untersch.
51
4-56°
59'
4-59°
58'
— 2°
59'
I-3S8
i-334
-j- 0.024
5 2
62
31
61
54
4- O
37
i-545
1.580
— 0.035
53
6l
58
61
22
4- 0
36
1-539
1-559
— 0.020
54
62
13
6 3
48
— 1
35
i*33i
1.294
+ 0.037
55
61
15
60
4 2
33
i*5*9
1-530
— 0.001
56
60
46
60
18
4- 0
28
1.520
i-553
— 0.033
57
59
3 2
59
3
+ 0
2 9
i-5 02
i-538
— 0.036
58
56
26
58
53
— 2
27
1.271
1.271
O.
59
56
51
56
17
4- 0
34
1.465
i-459
-f- 0.006
60
55
43
5.4
49
4- 0
54
1.448
i-453
— 0.005
61
68
34
68
6
4- 0
28
1.469
i-457 ;
+ 0.012
62
64
14
62
38
4-1
3 6
I -59 2
I-59 1
+ 0.001
6 3
45
51
46
3
— 0
12
1.168
1.156
+ 0.012
64
4
14
6
5 2
— 2
38
1.038
1.031
+ 0.007
65
13
2 4
9
2 9
4- 3
55
1.085
1,069
+ 0.016
66
5
3 2
1
39
+ 3
53
0.813
0.873
— 0.060
67
+ 2 3
2
4- 13
13
— 0
11
0.909
0.914
— 0.005
68
— 4
39
— 6
14
4-1
35
1.003
0.97
+ 0.033
69
— 39
19
-38
33
— O
46
1.161
70
4- 3
59
+ 5
2 4
!
2 5
O
OO
OO
O-i
0.871
-j- 0.012
7 1
—14
5 2
—18
1
4- 3
9
0.811
0.836
— 0.025
72
— 27
26
— 30
26
4- 3
0
1-113
1.094
+ 0.019
73
— 54
8
— 54
1
— 0
7
1.060
Ï.I44
— 0.084
74
— 14
49
—13
30
I
*9
0.879
0.878
+ 0.001
75
— 37
56
— 39
7
4-1
11
1.094
1.176
— 0.082
76
-58
II
62
49
4-4
38
1.667
1.685
— 0.018
77
— 51
4
— 5 2
35
4-1
31
0.981
1.014
— 0.033
78
— 35
34
— 35
40
4- 0
6
1.022
1.060
— 0.038
79
62
39
— 64
41
4- 2
2
1.658
1.709
— 0.051
80
— 54
46
— 59
3 2
4-4
46
i.6i6
ï-59 1
+ 0.025
81
— 42
49
— 44
13
+ i
2 4
I-I47
1.218
— 0.071
82
— 42
1
— 41
54
O
7
1.103
1,113
— 0.010
83
— 46
13
— 46
47
I . Q
34
I-I45
1-238
— 0.093
84
48
14
— 49
26
4-1
12
1.227
i-3*3
— 0.086
85
— 66
57
— 70
35
4- 3
38
1.894
1.817
+ 0.077
86
— 50
4
— 51
20
4-1
16
i- 2 57
1.326
— 0.069
87
— 53
O
— 54
14
+ 1
H
1.310
— 0.096
88
— 51
22
— 5 2
43
4-1
21
1.263
1 -359
89
— 53
49
— 55
16
4-1
27
1.3*1
1.425
— 0.104
90
— 5 2
46
— 53
2 5
4- 0
39
1.276
1.367
— 0.091
91
— 57
38
— 59
53
4- 2
15
1.424
i-53*
— 0.108
8*
4- 76
2 5
+ 76
3
O
22
1.678
i-75
— 0.072
8**
4- 73
46
4- 73
45
4- 0
I
1.469
1.421
+ 0.048
11*
4- 7°
5 2
-b 71
40
4- 0
48
1.45 1
1.38*
-f- 0.069
34*
4- 71
2 5
4- 7°
5 2
4- 0
33
1.448
1.409
4- 0.039
40*
4- 67
2 9
4- 68
49
I
20
i-393
1.369
4- 0.024
54*
4- 77
2 4
+ 76
2 9
4-1
5
i-7i3
1.805
— 0.092
62*
4- 37
36
+ 41
35
— 3
59
1.125
1.14
— 0.015
64*
4- 34
40
4- 31
55
45
1.238
1.19
0.048