36
24
60.0 60.3
34
26
51.0 49-9
13
26
52.0 51.3
ii
26
61 . 7 62 . i
37
26
57-2 58.0
30
28
51-5 50.5
12
28
52-9 52.1
IO
28
61.3 62.0
36
28
58.0 59.1
31
30
49.9 48.8
15
-0.8
30
51.0 50.0
13
-I.O
30
60.9 61.8
36 +0.8
30
60.0 60.3
34
+2.0
32
48.0 46.9
18
32
47.9 46.8
18
32
60.5 61.4
35
32
60.3 61.1
35
34
47.9 46.3
18
34
46.2 44.9
21
34
58.9 59-4
32
34
60. i 60.9
35
36
46.9 45-8
19
36
45-0 43-7
22
36
55-3 56.1
27
36 59-9 60.2
34
38
43.6 42.9
24
38
44-5 42.3
24
38
58.9 59-9
33
38
60.0 60.5
34
40
44-9 43-9
22
40
45-3 43-6
22
40
55-0 56.1
27
40
61.1 61.9
36
42
45.8 44.6
21
42
44.1 42.9
24
42
56.9 57-7
30
42
60.9 61.0
35
44
45.2 44.7
22
-I.O
44
43-9 42.1
24
-I.I
44
58.0 50.0
31
+0.9
44
61.2 61.9
36
+ 1-9
46
45-7 44-1
22
46
45-0 43-7
22
46
58.0 59.1
31
46
62.3 63.1
38
48
45.9 45.2
21
48
46.2 45.9
20
48
57- T 58.5
30
48
62.2 63.0
38
50
45-8 45-3
21
50
49.1 48.2
16
50
54-9 56.1
27
50
64.0 64.2
40
52
46.0 45.5
2O
52
46.9 45-7
19
52
53-7 54-1
24
52
68.2 68.8
47
54
44-9 44-9
22
54
46.8 45-1
20
54
52.8 54-0
23
54
66.0 66.9
44
56
42.5 42.3
26
56
43-3 4T-9
25
56
52.2 53.8
23
56
64.3 65.0
41
58
41.9 41.2
27
58
40.7 38.9
30
58
53-1 54.2
24
58
64.4 65.8
42
21 OO
41-8 41-3
27
-I.O
23 oo
38.0 36.1
84
-I.I
I OO
54-1 55-4
25
+0.9
3 00
67.8 68.9
47
+2.0
O2
39-9 39-3
30
02
36.8 35-3
36
02
55-1 56.2
27
02
70.3 70.8
50
04
40.0 39.5
30
04
36.1 35-0
36
04
55-1 56.9
27
04
69.8 70.3
49
06
40.2 41.1
28
06
35-6 34-3
37
06
56.6 57.8
29
06
66.2 67.0
44
08
39-9 39-1
30
08
36.6 35-3
36
08
56.1 57-4
29
08
63.2 64.0
39
IO
41.2 40.0
28
IO
37.0 36.0
35
10
56.1 57-2
28
10
62.9 63.2
38
12
45.0 44.3
22
12
36.8 35-9
35
12
56.2 57-0
28
12
66.7 66.9
45
14
45-3 44-9
21
-I.O
14
38.1 36.9
33
-I.I
14
56-0 56.8
28
+0.9
14
64.0 64.1
40
+2.1
16
49.3 48.0
16
16
40-3 39-9
29
16
55-5 56.2
27
16
65.0 65.6
42
18
51.0 50.8
22 12
18
40.2 36.0
32
18
56.1 57-0
28
18
64.2 65.2
41
20
22
2
28
30
32
34
36
38
M.I 59-0
58.3 56.9
54-5 53-5
52.6 51. i
52.5 51-6
52.1 50.9
50.6 50.1
49.1 48.3
50.3 49-2
51.8 50.3
21 58
22 O2
07
II
10
II
13
16
14
12
-I.O
20
22
24
26
28
30
32
38
43-0 41.9
45-0 43-9
46.1 45-0
45-5 44-7
43-1 41.2
42.0 40.6
40.8 39.3
39-9 38.8
39-8 38.8
40-3 39-2
26
22
21
21
26
27
29
30
30
30
-1.2
20
22
24
26
28
30
32
34
36
38
57-1 58.1
57-1 58.1
57-8 58.2
57-8 58.9
57-9 58.8
57-2 58.3
56.0 57-1
55-1 56.1
54-1 55-1
53-2 55.2
30
30
31
3i
31
30
28
27
25
25
+ 1.0
20
22
24
26
28
30
32
34
36
38
68.8 69.1
69.0 70.1
66.2 66.9
63.6 64.3
63.1 63.9
63.1 63.2
64.3 65.0
65.9 66.5
68.7 69.7
71.2 72.2
48
49
' 44
40
39
39
41
43
48
52
40
50.9 50.3
13
40
41.2 40.2
28
40
52.7 53-3
23
40
72.2 72.9
53
42
51-5 51-0
12
42
42.0 40.6
27
42
5T-9 52.1
21
42
73-3 74-2
55
44
50.4 50.2
13
-I.O
44
46.9 45-2
20
-1.2
44
53-2 54.0
24
+ 1.2
44
72.5 73-5
54
+ 2.8
46
So. r 49-9
14
46
41-3 39-5
29
46
53-2 53-9
24
46
72.8 73-9 i 55
48
50.8 50.0
13
48
42.1 40.0
28
48
53-1 53-9 24
48
73.9 75.8 22 57
SO
Si-3 Si.i
12
So
42.7 40.1
27
50
52.1 52.5 22
50
77.1 78.1
23 01
52
53.1 52.9
09
52
41-0 39-2
29
52
50.3 51.0 19
52*
53-5 57-8
00
54
52.6 51-8
IO
54
39-1 37.6
32
54
49.3 49.8 17
54
54.9 58.7 02
56
53-2 52.8
09
56
37-8 36.1
34
56
48.0 49.2 16
56
54.8 57-7 23 01
58
52-1 51-8
n
58
36.7 35-5
35
58
51.0 52.o! 20
58
51.9 55.0 22 57
24 oo
35-0 34.0
38
-1.2
!
Correction to local mean time is 555. 90 torsion = 17/30.
Torsion head at igh 36m read 48 and at 24)1 i8m read 55.
Observer J. V.
Observer J. V.
MAGNETIC OBSERVATIONS
Tabulation of magnetic declinations observed at Teplitz Bay Continued
263
Sunday, June 19, 1904
Magnet scale inverted
Monday, June 20, 1904
+-j f j - - - _7,
.^__ r
- y
Scale
East
Scale
East
Scale
East
Scale
East
Chr'r
readings
decli-
Temp.
Chr'r
readings
decli-
Temp.
Chr'r
readings
decli-
Temp.
Chr'r
readings
decli-
Temp.
time
nation
C.
time
nation
C.
time
nation
C.
time
nation
C.
Left Right
Left Right
Left Right
Left Right
h m
d d
/
h m
d d
e >
h m
d d
/
h m
d d
1
o
4 oo
54-0 50.0
22 59
+3-4
6 oo
33-0 30.1
23 31
+3-9
8 oo
Lost
IO OO
43-9 46.8
22 53
+n. 8
02
54-8 50.7
58
02
30.9 28.8
34
02
48.1 50.9
22 60
+ 8.1
02
43-5 46.8
S3
04
54-1 50.9
58
04
35-1 33-0
27
04
42.3 46-8
52
04
43.6 46.9
53
06
53-9 Si-o
22 59
06
37-2 35-8
23
06
43-2 47-2
53
06
43-0 46.1
52
08
51.0 49.0
23 02
08
36.0 35.0
25
08
40.2 43.9
48
08
43.1 46.0
22 52
10
50.0 48.0
04
IO
33-9 33-1
28
10
39.3 42.7
46
IO
48.8 50.9
23 oo
12
49-9 47-5
04
12
30.8 29.9
33
12
37-6 41.8
44
12
46.9 48.9
22 57
U
49-9 47-7
04
+3-2
14
32.96
29
+3-2
14
38.1 41-4
44
f 8.2
M
47-2 48.4
57
+12. 1
16
48.9 46.7
06
16
30.0 28.0
35
16
38.1 41. I
44
16
47-3 48.9
57
18
49.0 47.0
05
18
31-9 31-8
31
18
38.8 41-9
45
18
46.8 47.9
56
20
47.9 46.0
07
20
33-2 31-8
30
20
37-9 40.2
43
20
47-9 48.5
57
23
47.9 46.8
06
2;;
32-9 31-3
30
22
37-8 40.4
43
22
45.6 46.0
54
24
47-2 45.9
08
24
39-0 37.8
20
24
38.8 41-9
45
24
44-2 44-9
52
26
46.9 45.2
09
26
35-9 34-0
26
26
38.0 41.0
44
26
45-7 46.0
54
28
43-3 41-5
14
28
38.4 36.5
22
28
38.1 40.9
44
28
45-9 46.1
54
30
37.9 36.8
22
+3-4
30
40.8 38.3
19
+3.0
30
38.9 41- c
44
4- 8.2
30
44.0 45.1
52
32
37-9 36.1
23
32
41.0 39.9
17
32
39-1 41-2
45
32
43.1 44.0
SO
34
40.0 38.2
19
34
38. i 36.9
22
34
40.2 42.7
47
34
41.4 42.1
47
36
42.0 40.4
16
36
36.7 36.1
24
36
39-5 4I-S
46
36
42.7 43-7
50
38
40.9 39-7
17
38
37-1 37.0
23
38
41.2 43.1
48
38
43-0 44.0
SO
40
43-3 41-9
14
40
41.9 41-0
16
40
42-3 44.0
SO
40
45.0 46.0
53
42
49-o 45.3
07
42
42.8 42.1
M
42
42.5 43-9
50
42
46.1 47.4
55
+12.7
44
45-0 43-9
ii
+3-8
44
42.1 41.0
16
+2.9
44
43-2 44-8
Si
+ 9-0
44
46.3 47.2
55
46
45.9 42.6
ii
46
39.2 39.0
19
46
43-7 45-0
Si
46
46.3 46.8
55
+ 12.6
48
39- 1 38. i
20
48
43-5 42.2
14
48
44-o 44.9
Si
48
47.0 47-9
56
50
39-3 37-7
20
50
44.8 43.8
ii
50
48-7 49.1
59
50
46.1 47.0
55
52
36-9 35-1
24
52
44-9 44-0
ii
52
47-3 48-2
57
52
46.1 47.3
55
54
38.1 37-1
22
54
42.9 42.0
14
54
48.9 50.0
59
54
44-7 45-7
53
56
38-8 37-9
21
56
44.1 44.0
12
56
48.7 49-4
59
56
44.6 45.7
S3
58
41.9 40.1
16
58
40.9 38.9
18
58
47-4 48.3
57
58
47.1 48.0
56
5 00.5
40.8 39.0
18
+4.1
7 oo
41. 9 40.6
16
+2.7
9 oo
47-1 47-8
56
+ 9-8
II 00
46.8 47.2
56
02
41.1 39-9
17
02
43-8 42.1
13
02
47-3 49-8
58
02
45-8 47-7
55
+11- 9
04
38-0 36.3
23
04
43-0 42.0
14
04
48.8 50.1
59
04
41.4 43.1
48
06
36-0 35.0
25
06
39-9 39-1
19
06
45-8 46.9
55
06
44.9 46.4
S3
08
39-0 38.3
20
08
40.9 40.0
17
08
45-0 45-8
22 53
08
46.0 48.1
56
IO
25.0 24.9
42
IO
39-1 39.0
20
IO
50-1 50.9
23 01
IO
44.8 46.9
54
12
23.7 22.0
45
12
40.0 38.2
'9
12
46.3 47.0
22 55
12
45.0 46.3
53
14
24.0 23.2
44
+4-3
14
37-7 36.9
22
+2.5
M
44.9 46.4
53
+IO.I
14
42.1 43-3
49
+ II.O
16
25-5 25.1
41
16
43-9"
12
16
46.0 47.1
55
16
41.7 43.8
49
18
33-o 32.8
29
18
46.1 44.2
10
18
43-o 43-9
50
18
43.0 44.9
5i
20
39.9 38.0
20
20
38.2 37.8
21
20
44-0 45-0
52
20
46.1 47.9
56
22
45-00
IO
22
46.1 45- i
09
22
45-1 45-3
S3
22
46.8 48.0
56
24
51.0 50.0
OI
24
40.9 40.1
17
24
41.9 43.1
49
24-5
44.1 45.8
52
26
.',0.9 49.9
02
26
51. oa
01
26
44.2 45.0
52
26.3
42.0 42.8
48
28
41.06
16
28
48.06
05
28
42.0 43.8
-19
28
44-2 44-9
52
+IO.I
30
36.26
24
30
37-3 36.9
23
+2.6
30
42-0 43.9
49
+10.7
30
44-7 45-9
S3
32
31.2 3I.I
32
+4-2
32
43.0 41.0
15
32
42.1 44.1
50
32
39.0 40. 1
44
34
29.9 28.8
35
34
40.8 40.0
18
34
46.9 47-4
56
34
37-3 38.4
41
36
28.1 27.0
38
36
44.0 42.0
13
36
45.8 48.0
55
36
38-1 38.1
42
38
27.3 26.1
39
38
44-8 43-9
II
38
43-2 45-5
Si
38
40.8 44.8
49
40
27.0 25.0
40
40
46.0 45.0
09
40
45-9 48.6
56
40
38.1 38.9
42
42
29.0 26.5
37
42
46.1 44.3
IO
42
47-0 48.9
57
42
37- S 38.8
42
44
23.1 21.0
46
+4-1
44
45-0 44-0
ii
+2-7
44
40.5 42.0
16
+ 11.
44
35-o 36.2
38
+ 0.5
46
19.8 16.6
52
46
45-2 44.2
ii
46
41.2 43.2
48
46
35-2 36.2
38
48
17.8 14.2
56
48
43-8 42.1
T3
48
42.0 44.1
49
48
36.2 37.0
39
50
22.8 20.2
47
50
46.0 44.8
10
50
38-6 41-4
45
50
35-i 35-8
37
52
20.3 18.9
50
52
48.9 48.0
05
52
39-1 41-9
45
52
34-0 34-4
35
54
24.2 21.5
45
54
50-1 45.9
05
54
42.2 45.4
Si
54
36-5 36-9
39
56
25-1 22.4
44
56
42.1 41.1
16
56
43-9 45-7
52
56
35-9 36.8
39
58
30.0 28.8
35
58
47.8 46.0
07
58
43-7 45-2
Si
58
35-1 36.1
38
8 oo
ST. 2 49-9
OI
4-2.9
12 OO
36.5 37-5
40
+ 9-0
Correction to local mean time is 265. 90 torsion = 18/46.
Torsion head at oh oom read 57 and at 8h 17111 read 46".
Observer J. V.
Correction to local mean time is + 6s.
Torsion head at 7h 45111 read 50 and at iah 3Om read the same.
Observer J. V.
264
SCIENTIFIC RESULTS OF ZIEGLER POLAR EXPEDITION
Tabulation of magnetic declinations observed at Teplitz Bay Continued
Tuesday, June 21, 1904 Magnet scale inverted
Wednesday, June 22, 1904 Magnet scale erect
Chr'r
time
Scale
readings
Left Right
East
decli-
nation
Temp.
C.
Scale
Chr'r readings
time
Left Right
East
decli-
nation
Temp.
C.
Chr'r
time
Scale
readings
Left Right
East
decli-
nation
Temp.
C.
I
Chr'r
time
Scale
readings
Left Right
East
decli-
nation
Temp.
C.
h m
d d
f
h m
d d
e i
O
h m
d d
01
h m
d d
f
12 OO*
55-1 53-1
22 37
+13-0
14 oo
59-0 57-9
22 3O
+13-9
o oo*
56.1 58.1
22 13 +9.0
2 OO
46.8 52.1
22 45
+8.0
02
56.3 53-9
36
02
59-4 57-4
30
02
56.5 59-0
14
02
46.9 53-0
46
04
57-8 54-9
34
04
59-2 57.2
31
04
56.0 58.5
13
04
48.7 54-8
49
06
58.1 55-8
33
06
58.5 56.6
32
06
55-3 58.9
13
06
51-9 57-2
53
08
58.2 55.9
32
08
57-5 55-9
33
08
55-0 58.8
13
08
53-9 59-1
56
10
58.0 56.1
32
10
57-8 56.1
33
10
59-1 59.9
17
IO
55-2 60. i
58
12
57-1 55-2
34
12
58.3 57-4
31
12
58.1 61.1
17
12
55-1 59-6
58
14
56.1 54-3
35
+13-0
14
57-8 57-1
32
+14.0
14
59-9 62.1
19
+8.6
14
52.0 56.5
53
+8.1
16
55-4 54-8
36
16
58.4 57-0
31
16
61.9 64.7
23
16
53-0 57.1
54
18
54-9 54-0
37
18
58.9 57-8
30
18
62.1 65.3
23
18
54-2 58.1
56
20
54-2 53-1
38
20
59-9 58.7
29
20
63.2 66. o
25
20
54-1 57.9
56
22
52-9 51-9
40
22
59-2 58.3
30
22
64.0 65.9
25
22
56.0 59.1
58
24
53-9 53-0
38
24
59-7 58.3
29
24
6s. i 66.8
27
24
56.0 58.9
58
26
56.0 55.2
35
26
60.4 59-2
28
26
66. o 67.3
28
26
53-9 57-0
54
28
52.8 52.2
40
28
59-8 58.9
29
28
66.3 67.9
29
28
56.9 58.0
58
30
54-0 53-2
38
+I3-I
30
59-8 59-1
29
+14-5
30
66.9 68.1
29
+8.0
30
57.2 60.0
22 60
+8.0
32
53-9 53-1
38
32
60. i 58.9
29
32
65.5 6s. 9
26
32
57-8 60. i
23 oo
34
51-4 Si- I
42
34
61.9 60.5
26
34
61.2 62.0
20
34
59.0 61.1
02
36
51-3 Si.O
42
36
60.9 59-1
28
36
60. i 61.0
18
36
57-9 60.3
00
38
SO. 2 50.0
43
38
60. I 58.9
29
38
61.2 62.0
20
38
58.0 59-9
OO
40
49.8 49-3
44
40
59-8 58.1
30
40
62.3 64.0
22
40
60. i 62.1
04
42
48.0 46.7
48
42
58.9 57-6
31
42
64.9 66.2
26
42
60.5 62.2
04
44
49.9 49.7
44
+13-0
44
59-7 58.0
30
+15-0
44
67.1 69.0
30 +8.0
44
61.1 63.0
05
+8.1
46
53-0 51-6
40
46
59-5 58.2
30
46
68.1 69.8
32
46
63.2 64.9
08
48
56.1 54-8
35
48
58.9 58.8
30
48 66.6 68.0
29
48
63.2 64.6
08
So
57-4 55-9
33
50
59-9 59-6
28
50 65.0 66.0
26
50
64.0 65.2
09
52
59-9 58.7
29
52
62.1 61.9
25
52
68.7 69.8
32
52
65.0 66.8
ii
54
60.0 58.5
29
54
65.3 64.1
20
54
68.9 70.0
32
54
64.1 65.8
10
56
59-9 58.2
29
56
64.9 63.6
21
56
68.3 69.2
31
56
63.1 65.1
08
58
58.9 57-1
31
58
65.9 64.3
2O
58
68.1 68.4
30
58
63.9 63.8
09
13 oo
59-4 58.1
30
+12.9
15 oo
66.1 65.0
19
+15-3
I 00
67.9 68.7
31 +7-9
3 oo
64.1 66. o
IO
+8.2
02
59-2 57-5
30
02
68.2 67.5
16
02
66.3 67.7 28
02
63.0 66.9
II
04
60.7 59.5
28
04
69.8 69.3
13
04
65.5 66.9 ; 27
04
63.1 67.0
II
06
61.7 60. I
26
06
73-5 72.9
07
06
64.9 65.9 ! 26
06
64.0 66. o
10
08
60. 1 58.7
29
08
76.4 75-9
02
08
64.2 66.0 26
08
64.3 66.2
IO
10
62.1 60.6
26
IO*
51.2 46.2
01
IO
64.4 66. o 26
IO
64.2 66.5
IO
12
63.3 62.2
24
12
51.8 44-2
O2
12
63.5 64.8 24
12
64.7 66.2
IO
14
60.9 60.0
27
+13-0
14
50.8 43-3
22 03
+15.7
14
65.1 66.8 271+8.0
14
64.9 66.3
IO
+8.5
16
61.4 6o.O
27
16
52.9 46.0
21 6b
16
66.9 67.0 28
16
63.2 66.9
II
18
60.4 59.0
28
18
52.7 46.1
60
18
68.1 68.9
3i
18
66.1 67.3 ii
20
59-8 58.2
29
20
56.1 50.2
54
20
6s. 9 66.8
27
20
66.0 67.7
12
22
59-0 57-5
31
22
55-9 50.2
54
22
66.1 66.7
28
22
66. o 67.8 12
24
57-6 56.1
33
24
53-8 48.8
57
24
67.1 67.3
29
24 66.1 68. o ! 13
26
55-9 54-2
36
26
53-9 49-3
56
26
70.0 70.2
33
26
66.1 67.9
13
28
55-0 53-8
37
28
53.2 49.0
21 57
28
71.00
35
28
66.7 67.9
13
30
55-5 54-0
36
+13-0
30
50.9 47-1
22 OO
+15-7
30
74-1 74-6
40 +7-9
30
66.1 67.1
12
+8.8
32
54-9 53-1
37
32
54-2 48.1
21 57
32
74-1 75-1
40
32
65.9 67.0
12
34
53-9 53.1
38
34
54-8 49-6
55
34
75-0 75-9
42
34
66.5 67.7
13
36
55-0 55-0
36
36
54.2 49.7
56
36
75-1 76.0
42
36
66.0 67.1 12
38
56. i 56.0
34
38
52.9 48.9
57
38
73-7 74-0
39
38
66.2 67.2 12
40
54-7 54-5
36
40
52.0 47-8
21 59
40
72.0 72.3
36
40
66.8 67.8 13
42
56.2 56.2
34
42
49-3 46.1
22 O2
42
71.0 71.9
35
42
67.3 68.1 14
44
55-3 55-0
36
+13-4
44
47-8 44-7
05
+15-6
44
71.0 71.2
35
+7-9
44
68.9 69.3
16
+9.0
46
56.9 55-2
34
46
48.9 45-3
22 03
46
70-7 71-7
35
46
71-9 73.i
21
48
56.9 55-8
34
48
55-9 51.8
21 53
48
70.9 71.8
35
48
74.0 74.9
24
50
57-2 56.0
33
50
60.1 55-9
46
50
72.1 72.8
37
50
71.9 72.2
21
52
56.7 55-1
34
52
59.0 54.4
48
52
74-1 74.8
40
52
69.1 70.0
17
54
56.8 55-3
34
54
54-9 52.2
53
54
76.1 76.5
43
54
68.0 68.9
15
56
57-8 56.1
33
56
58.5 56.0
47
56
77-8 78.0
46
56
63.0 66.0
IO
58
58.2 57-0
32
58
61.8 59.2
42
58*
46.9 51-1
44
58
62.0 63.0
06
16 oo 61.0 58.5
43 +15.1
.
Correction to local mean time is i6s. 90 torsion = 15/48.
Torsion head at nh 30tn read 53" and at l6h 25m read 46".
Observer J. V.
Observer J. V.
MAGNETIC OBSERVATIONS
Tabulation of magnetic declinations observed at Teplitz Bay Continued
265
Wednesday, June 22, 1904 Magnet scale erect
Wednesday, June
22, 1904 Magnet scale erect
Scale
East
j
Scale
East
Scale
East
Scale
East
Chr'r
readings
decli- Temp.
Chr'r readings decli- Temp
Chr'r
readings
decli-
Temp
Chr'r
readings
decli- Temp.
time
nation
c.
time
nation C.
time
I
nation
C.
time
nation
C.
Left Right
Left Right
Left Right
Left Right
h m
d d
t
h m
d d
O
h m
d d
O '
e
h tn
d d
Of O
4 oo
62.9 64.0
23 07
+ 9.1
6 oo
43.1 46.6
23 37
+n. i
8 oo
15.6 17-6
22 53
+12.0
10 00
14.6 15.0
22 50 +13-8
02
64.9 66.2
10
02
40.3 43-8
33
02
17.1 18.0
54
02
14.2 14.8
50
04
65.0 66.0
10
04
37.0 40.0
27
04
18.6 20.2
57
04
ii. 3 ii. 7
45
06
65.2 66.8
ii
06
35-0 37-2
24
06
18.2 19.5
57
06
II. 3 n. 5
45
08
66.9 67.5
13
08
33.9 36.1 22
08
17.2 18.1
54
08
12.3 12.8
47
10
68.0 68.3
15
IO
32.9 34-8
20
io_ 16.5 17-5
54
IO
12.7 13.1
47
12
68.2 68.9
15
12
31-0 32.0
16
II
16.2 17.3
53
12
12.0 12.6
46
14
67.0 68.0
14
+ 9-3
14
28.0 29.6 12 +11.3
14
18.6 19.6
57
+12.3
14
13-0 13-3
48
16
69-3 7o.i
17
16
25-9 27.9
09
16
2O. 2 21. I
59
16
13-7 13-8
48
+14.0
18
69.1 70.1
17
18
24.9 26.1
07
18
18.6 19.0
22 56
18
ii. 6 12.3
46
20
66.2 66.8
12
20
22.9 24.0
23 04
20
22.3 22.6
23 02
20
12.6 13.1
47
22
63.3 64.1
08
22
19.0 20.3
22 58
22
18.8 19.1
22 57
22
12.3 12.5
46
24
64.0 65.0
09
24
17.9 19.2
56
24
19.0 20. 2
58
24
12. I 12.5
46
26
63.1 64.1
07
26
17.0 19.8
56
26
18.6 19.3
57
26
II.9 12.6
46
28
63.8 64.3
08
28
18.1 19.5
56
28
18.0 18.6
56
28
II. 6 12.0
46
30
63.5 64.1
08
+ 98
30
17.0 18.4
55 +11. 3
30
15.3 16.0
Si
+ 12.6
30
12.0 12.9
46
tU-8
32
61.9 62.0
05
32
16.9 18.0
54
32
14-3 14-8
50
32
12.8 13.0
47
34
61.3 62.7
05
34
16.4 17.3
53
34
13-4 13-8
48
34
13.0 13.0
47
36
62.9 64.0
07
36
14.9 14.9
50
36
13.5 14-1
49
36
12.2 12.3
46
38
63.0 64.1
07
38
13.9 14.0
49 j
38
15-1 15-5
Si
38
13-3 13-7
48
40
62.9 64.1
07
40
12.3 13-0
47
40
14.7 15-3
50
40
13-3 13-4
48
42
63.9 65.1
09
+10.0
42
12.8 13.1
47
42
15.0 15.2
Si
42
12.3 13-0
47
44
63.0 63.9
07
44
13.9 14.1
49 J -ll-7
44
16.1 16.3
52
+13.0
44
10.8 11.4
44
+15-0
46
60.9 61.3
04
46
16.2 17.0
53
46
16.9 17.1
54
46
II. 2 II. 6
45
48
50.9 60.0
02
48 15.0 16.0
Si
48
16.3 16.9
53
48
II. 12. O
45
So
58.2 59.0
OO
50 16.2 17.0
53
50
16.3 16.3
53
50
II. O 12. 1
45
52
60.9 61.1
03
52-5
16.9 17.9
54
52
14.6 15.1
50
52
10.5 10.7
44
S4
63-7 63.9
08
54
17.0 18.1 22 54
54
14-3 14-6
50
54
13.3 14.1
48
56
63.1 64.1
07
56
23.8 24.3 [ 23 05
56
15.6 16.0
52
56
15.8 16.2
52
58
61.0 63.2 06
58
24.0 24.5
05
58
16.6 17.2
54
58
15.0 15.3
5i
S oo
63.8 65.8
09
+10.5
7 oo
21. T 23.O
02 +12. T
9 oo
17-3 17-6
54
+13-4
II OO
12.6 13.1
47
+14.8
02
62.9 66.0
09
02
2O.9 2T.2
23 oo
02
15-1 15-7
Si
02
10.8 11.3
44
04
64.1 67.0
10
04
17. I l8.3
22 55
04
14-9 15-3
Si
<H
8.3 8.7
40