Ann, d. Hydr, usw. 1933,
Tafel 17.
K. Kalle:
Meereskundliche chemische Untersuchungen mit Hilfe des Zeißschen Pulfrich-
Photometers.
Tabelle 1. Tabelle der Extinktionskoeiffizienten.
|
1D%! }
D%/ x |
‚00
99
98
a7
3%6
95
X
33
92
HM
0.000
0.004:
0.009
0.0138
3.018
3.022
3.027
J.032
J.086
7.041
),046
),051
4.056
3.061
).066
071
2,076
).081
).086
1092
3.097
2.102
.108
0.114
D.119
0125
2.131
2.187
3.148 |
534149
50 3.801
49,5 | 0.805
49 | 0.310
48.5 | 0.814
48 | 09.319
47.5 0.328
47 07.328
46,5 D.888
16 0.387
15.5 1.342
5 ).8347
14.5 0.352
14 | 9.857
43.5 | 0.362
43 | 0.867
42.5 | 0.872
42 | 0.877
41.5 0.382
41 | 0.887
40.5 | 0.398
10.0 0.898.
39.8 | 0.400
39.6 0.402
39.4 | 0.405
39.2 0.407
39.0 | 0.409
38,8 | 0.411
38.6.| 0.418
38.4 | 0.416
38.2 0.418
38.0 0.420
37,8 0.4238
37.6 ' 0.425
27.4 0.427
37,2 0.480
37.0 0.432
26.8 | 0.484
36,6 ' 0.437
36.4 0.489
236.2 441
Jo
za
>»
n
30)
21
30
79
78
{7
%
IA
2
+
3.155 |
0.161
4.168 1
4.174
).181
3.187
J.194
3.201
J.208
3.215
30 3,222
59,5 ),226
39 | 9.229
58.5 | 0.283
58 | 0.237
57.5 | 0.240
537 | 0.244
56.5 | 0.248
56 | 0.252
55.5 ' 0.256
55 | 0.260
54.5 0.264
54 | 0,268
58.5 | 0.272
583 | 0,276
52.5 | 0.280
52 | 0,284
531.5 | 0.288
51 | 0.292
50.5! 0.297
36.0 0.444
35.8; 0.446
35,6 | 0.449
35.4 ' 0.451
35.2! 0.454
35.0 ' 0.456
34.8 0.458
34.6 0.461
34.4 0.468
>49 1466
24.0 7.469
38.8 2.471
38.6 0.474
28.4 MATT
32 0.480
28.0 0.482
29.8 0.484
32.6 | 0.487
39.4 | 0.490
330 0.492
D%| x
22.0 0.495
31.8 | 0.498
31.6 1 0.500
31.4 | 0.508
31.2 | 0.506
31.0 | 0.509
30.8 | 0.511
30.6 | 0.514
30.4 | 0.517
302 0.520
30.0 0.528
a R| 0.526
29,6 0.529
29,4 0.532
29.2 7.585
29.0 3.588
28,8 2.541
28.6 7.544
28.4 2.547
28.2 7.550
1.552
3.556
9.559
3.562
3.565
3.569
0.572
9.575
3.578
0.582
26.0 0.585
25.8! 0.588 ,
25.6 0.592 |
25.4 0.595
25.2 0599
35.0 0.602
24.8 0,606
24.6 D.609 |!
24.4 ı D.618
249 816
2.620
2.623
3.627
2.681
2.685
1.688
0.642
7.646
2.650
1.654
1658
„662
7.666
3.670
1.674
2.678
7.682
3.686
2.690
) 895
D%| x
20.0 0.699
19.9 0,701
19.8 | 0.708
19.7 0.706
19.6 | 0.708
19,5 0.710
19.4‘ 0.712
19.3 3.714
19.2 0.717
19.1 0,719
2.721
0.724
0.726
9.728
731
1,783
2.735
9.738
0,740
23.742
18.0 0.745
17.9 | 0.747
17.8 | 0.750
17.7 0.752
17,6 0.755
17.5 0.757
17.4 0.760.
17.3 0,762
17.23 0.765
(7.1 0,767
08! 0.770
16.9 | 0.772
16,8 | 0.775
16.7 | 0.777
16.6 0,780
16.5 97.788
16.4 0.785
16.3 0.788
162 0.791
18.1 7.798
0,796
3.799
J.801
J.804
0.807
3.810
2.818
2.815
0.818
2.821
5.0 7.824
4:9 0.827
‘4,8 0.880
4,7 9.888
14.5 0.8386
14.5 0.839
44 0.842
14.8 | 0.845
142 | 0.848
141 0.851
Do!
4.0 0.854
8.9 | 0.857
18.8 | 0.860
8.7 | 0.868
18,6 | 0.867
18.5 | 0.870
18.4 0.878
13.3 | 0.876
18.2! 0.879
{8.1 0,888
18.0 ı 0.886
12.9 ı 0,889
12,8 | 0.898
12,7. 0,896
12.6 ı 0.900
12,5: 0.908
12.4 | 0.907
12.3! 0.910
12.2 0.914
'9.4 0.917
0.021
0.925
0.928
0.982
0.936
0.989
0.948
0,947
0.951
9.955
:1.0 0.959
‚0.9 | 0.968
10.8 | 0.967
10.7 | 0,971
10.6 | 0.975
10:5 | 0.979
10.4 | 0.988
10.8 | 0.987
10.2 0.991
‘0.4 92.996
1.000
1.004 |
1.009 |
1.018
1.018
1.022
1.027
1.082
1.086
1.041
1.046
1.051
1.056
1.061
1.066
1071
1.076
1.081
1.086
10992
k 1D%
3.0
7.9
7,8
17
7.6
15
7.4
7.3
72
11
7.0
8.9
3.8
3.7
3.6
5
3.4
5.3
3.3
3.1
6.0
5.0
5,8
5.7
5.6
5.5
5.4
5.3
5.2
*1
5.0
4,9
‘38
17
46
15
14
43
4.2
‘+
40
29
8
17
46
z5
44
2,8
3.2
2
3.0
2,9
28
27
>76
25
2,4.
2.3
2.2
a4
kx
(.097
1.102
1.108 |
1.114
1.119 1
1.125
1.181
1.187 |
1.143
(149
1.155
1.161 |
1.168
1.174
1.181
1.187
1,194
1.201
1.208
1215
1.222
1.229
1237
244
L.252
1.260
1.268
1,276
1.284
„292
1.301
L.810
1319
1.328
1,337
1.347
1.357
1.367
1377
1387
1,398
„409
1.420
1.432
1444
1.456
1.469
1.482
1.495
1.509
528
1,538.
1.552
1.569
1.585
1.602
„620
1.638
1.658
1878
D% | x
2.0 1.690
1.95 1.710
1,90 | 1.721
1.85 ' 1.738
1.80 1.745
1.75 1,757
1.70 1.770
1.65 1.788
1.60 1.796
1.55. 1.810
1.50 1.824
1.45 1.839
1.40 1.854
1.835 1,870
1.30 1.886
1.25 1.908
1.20 1.921
1.15 1.989
1.10 1,959
L05 1,979
1.00‘ 2.000
0.50 | 2.301
0.10! 8.000
