Ann. d. Hydr. usw. 1941. Chr. Jensen: Strahlungsmessungen in Lindenberg.
“nn BL I CC
Tabelle 1. In g cal angegebene Werte der Intensität der Gesamtstrahlung der Sonne in Lindenberg im Mai 1918,
&)-Höbel 6.p | 7a | 7.p 8.0 9a | 15.2 116.2 16.n | 17.0 lı7.p | 18.0 l18.p 1 20.a 120.0 ! 21.2! 21.0 199.2 !99.p ! 95.nı 26.2 | 26.p | 27.p
9.59
15°
2,59
3.5°
15°
5.59
35°
159
3,5°
35°
.0.5°
.1.5°
„2.5°
3.5°
4.5°
5.5°
6.5°
7.5°
‚8.5°
9.5°
20.5°
21.5°
22,5°
33.50
24.5°
25.5°
26.5°
27.5°
28,.5°
19.5°
30.5°
31.5°
32,5°
33.50
“4,59
‘5.5°
‚8.5°
37.5°
38.5°
9.5°
0.5°
1.5°
:2,5°
+8,59
4.5°
:5,5°
.6.5°
+7.5°
18.5°
19.50
:0.5°
31.5°
2,5°
35°
4
_ „0111 — | 0.016' 0.018 4,087 _—
9.045 - — 1.039 0.039| 0.102 0.108 0.188; 0.104 — | —
3.158 1.038 | 0.027 1067| 0.098 0.188; 0.194 | 0.218 | 0.171 | 0.040 — | —
0268 50m 0.088 1.096 | 0.158 | 0.256 | 0.272 0.278 0.234| 0.104 | 0.082 —
0.360 }.112 | 0.160 124 | 0.217 | 0.824 | 0.355 | 0.387 | 0.294 | 0.165 | 0.094 | 0.042
9.447 1.148 | 0.238 1.1591 0.278 | 0.384 | 0.427 | 3.8391 | 0.348 | 0.226 | 0.154 | 0.115
2.518 ).181 | 0.282 )180 0.827 | 0.488 0.494 0.440 0.399| 0.2838 | 0.214 0.188
2.582 „222 | 0.848 1.208 | 0.381 | 0.487 | 0.550 | 0.481 | 0.447 | 0.338 | 0.269 | 0.260
0.689 7.260 | 0.899 2.236 | 0.4381 | 0.530 | 0.604 | 0.521 | 0.492 | 0.388 | 0.332 | 0.327
0.687 1.296! 0.451 7.264 | 0.479 | 0.569 | 0.653! 9.558 0.534! 1.436 0.374 | 0.389
0.782 „8332! 0.499, 3.292 0.523 | 0.604 | 0.696 | 9.598 | 0.575 | 2.481 9422 0.442
0.772 1.369 | 0.542| — 3.821| 0.571 | 0.688 | 0.737 | ).625 | 0.612, ).523 0.467 0.491
0.808 „404 | 0.581 | 0.775 3.348 | 9.608 | 0.668 0.772) 2.658 | 0.648 2.563) 0.509! 0.534
0.840 444 | 0.616 0.810 2.877| 9.689 | 0.696 | 0.805! 3.680 | 0.682 2.600 0.550 | 0.575
0.870 1480! 0.650 0.844 2.405 0.672 | 0.722 | 0.836 2.707! 0.713 1.686 0.588 0.610
9.896 | 516 0678| 0.878 | 0.482! 0.704 | 0.747 | 0.864! 7.730 0.744 5.670, 0.623 0.642
2.919 5511 0.706 0.90£| 0.459! 3.783 | 0.770 | 0.892! 3.758 | 0.778 3.700 | 0.655 | 1.672
2.042 587 | 9.788 | 0.927 0.486 | 0.760 | 0.790 | 0.916 | ).774 0.799 9.780 0.688 0.700
0.964 ‘1.623 | 0.756 | 0.958 0.518 J.784 0.810 0.9040 | 0.794 0.824; ).756 | 0.716 | 0.725
1.983 ),657 2.779| 0.976 | 0.588 , 3.808 | 0.829 0.962 3,814 0.850 2.784] 0.744 9.749
1001| — 0.691 | 9.800 0.998 0.564 3.831 | 0,847 3.983 2.832 | 0.873 2.810| 0.770 | 0.772
1.019 1.068 0.724 | 9.820 ‘020 0.590 | J.852 | 0.866 | 1.002' 3.850 0.895, ).832| 0.794 ).7938
1.082 1.080 0.756! 2.838 ..040 0.617 | 0.871 | 0.882 | 1.021 | 1.868 0.015 0.855 | 0.817 | 0.818
1.052 1.092 0.788! 0.857 ..059| 0.642 | 0.890 | 0.898" 1.039! 3.884 | 0.935 | 0.875 0840| 0.831
1.068 1.106 0819| 0.872 078 9.668! 0.908 | 0.914 1.054 9.900 0.953 | 0.894! 0.861 0.848
1.081 1.119 | 0.849 ' 2.887 096 0.694 | 0.924 | 0.929, 1.069 9.916 | 0.970 | 0.012 | 0.881 | 0.864
1.095 | 1.182 | 0878 9.901 114. 0.720 0.940 0943| 1.081 0.981} 0.986 | 0,928 0.900 | 0.880
1.107 1.145 | 0.907 | 9.914 180° 9.745 0.955| 0.957| 1.096 2.945 | 1.002 0.948 | 0.917 | 0.895
1.118 1.158 0.936! 2.9026 -.145,| 0.770 0.969 | 0.970 1.109 9.960 1.016 0.957 0.988 0.000
{136 1.170 | 0.962 3.937 161° 0.798 9.988 0.983 1.121 2.974 1.080 | 0.970 9,922
150 | 1.182 0.987 3.946 1.173 0,816 D.996 | 0.094 7.987 1.048 0.982 0.934
„165 1.192 1.011 9.9566 185 0.838| 1.009 1.006 1.000 | 1.057 | 0.994 0.945
„174 1.204 | 1.083, 2.064 196, 0.859 1.021 1.016 L.018 1.069 | 1.006 0.957
1.187 | 1.214 | 1.054! 9.972 206 | 0.880 | 1.081 1.027 1.024 | 1070 1.016 0.968
1.198 "226 1.074 7.979 216 3,899 1.042 1.086 1.086 1.089! 1.027 1.979
— 9286 1.092 2.084 925 0.918! 1.052! 1.046 1.048 | „009 | 1.086 2.989 |
246 | 1.111 2.990 281 1.936 1.062] 1.054 1.059 1.109| 1.046 .998
‚254 1.129 23.995 1.238 9.952 1.072 | 1.063 1.070 | 1.118 | 1.055 1.008
„263 , 1.147' ).998 1.244 23.967 1.080| 1.072 1.081 | 1.126 | 1.064 1.017
271 ' ‘162 ..001 „247 3.981 1.088 1.079 1.091 1.133 | 1.078 „027
377 , „177 1.005 251 2.995 1.097 1.086 1.108 ..141| 1.081 1.085
984 1.191 1.007 254 1.007 1.106 094 1.118 „148 | 1.090
„290 , 1.206 ..009 256 ..019 1.118, ..102 1.122 .154| 1.097
294 1.220' ..010 1.259 1.029 1.120 1.109 1.182 .160| 1.105
208 ’.282 011 1260 1.040 1.128 117 1142 1165| 1.118
301 | 1.246 1.018 260 ..040| 1.184 128 152 1170| 1.120
1.304 | 1.257 ..014' 260 ..059| 1.141 180 161 .175| 1.128
1.307 | 1.270 ..014 ..260 1.068 | 1.148 ..136 „170 .179| 1.185
"808 1.280 ..014| 259 1.074! 1.154, 144 179 1.182 | 1.142
>09 ' 1.291 1.014 1.257 081 1.161] 150 1187 „184° 1.148
310 1.801 ..015| 1,256 087! 1.165| „157 1.260 1.194 1.187| 1.154
310 | 1.8311 ..015| 255 091 1.171 1.168 1.264 1201| 1.189| 1.161
310 | 1.322 ..016 254 ..099| 1.176 1.168; 1.268 210 110 1.166
L.310* 1.881 — 1.252 „105 1182| 1.176| 1272| 1.216 | 1.192 | 1.178
1.810*, 1.889 — | 1.251 1109| 1.187 | 1.188 | 1.275 1224 1.198 | 1.180
= 114! 1.192 | 1.190 1.279 1.281 1.194 | 1.187
— 14117 1.198 1.195 1.282/ 1.288 1.195 | 1.191,
23er! 19011 19011 4 one! 4oa6! © y0gl 442
— 0010| — 2072! — | 0.0721 0.022
7.070 | 0.077 | 0.008 9.200 — | 0.195 | 0.167
).196 | 0.140 | 0.066 0.308 | 0.058 | 0.289 | 0.282
305 0.202 0.124 0.400; 0.194 0.362 | 0.374
).,395 | 0.259 | 0.180 | 0.482 0.329 | 0.427 | 0.452
7.467 0.318 | 0.234 7.544 0.448 | 0.484! 0.518
),529 0.365 | 0.284 618] 0.558 0.589 0.578
)578 | 0.413 | 0,380 3.674 0.637| 0.586 D.620
) 621! 0.459 0.374 1721| 0.706 0.630 0.664
658 | 0.503 0.417 7.764 0.766 0.669 1.708
).692 | 0.545 | 0.455 | 3.801 0.814 | 0.706 2.738
),728 | 0,584 | 0.492 0.835 0.857 | 0.789 D.770
7752| 0.623 0.526 0.866 0.894 0.772 1.801
).778 0.658 0.558 | 0.896 | 0.028 0.800’ 0.820
3.802 | 0.693 0.588! 7.920 | 0.958‘ 0.829 D.865
),824 | 0.725 | 0.616. 7.945 0.985 | 0.856 7.880
1,847 0.758 0.648 2 1.009 | 0.881 9.908
),867 | 0.788 0.668 ).990| 1.033 0.904, 0.925
).886 0817 0.692 | 1.009 | 1.054 0.927 0.946
0.904 | 0,844 0.713 | 1.028 1.074! 0.949 —
— 0.921] 0.871 | 0.734 045| 1.091
0.849, 0.988 | 0.896 | 0.753 1.068 1.109
3.870 0.954 | 0.919 0.772 078 1.127
0.888 0.969| 0.942 0.789 091 | 1.142
0.908 0.988, 7.964 0.805 1.106 '.157
0.922: 9.996, 2.988 | 0.821 1.119 71
2.937 1.008 1.002! 0.836 1.181! 185
3.951. ‚020 1.020 0.850 2 198
0.964 | 1.030 | 1.086 | 0.863 1.152) 911
0.975 041 1.052! 0.876‘ 1.162
9.989 052 1.066 0.889 172
1.009 „061! 1.078 | 0.901 | 1.181
1.020, 4.070 | 1.091 | 0.912 ° 1.188 ı
1.029 1.076 1.102 0.922 1.194
1.039 „085! 1.113! 0.932 200
1.047, ‚092 | 4.128' 0.942 206.
1.054 1099 1.133| 0.952 212
1.062 | 1.106 1.142 0962 216
1.069 | 1.118; 1.149| 0.9701 1.220
1.076! 4.119 1.157] 0.979: ‘224
1.082 1.126 1.163| 0.989; 1.227
L.087 1.181 1.170| 0.997 | 1.280
(092; 1.136 | 1.176 | 1.006 | 1.238
1097| 1.142 1.181 1.014 1.285
102 1.148 1.187 1.023! 1.287
„106 | 1.158 1.190| 1.080| 1.289
„109 | 1.158 | 1.192 1.089 1.240
118 1.162 1.195 | 1.048 | 1.241
116 | 1.166 1.198| 1.055! 1.248
A118 | 1.171 1.200| 1.068 | 1.245
„120! 1.176 1.202 1.070 | 1.246,
“128 | 1.181 1.204 | 1.078 | 1.247
"126 | 1.185 1.205 | 1.084 1.248
128 1.190 1.206| 1.091| 1.249
„130 1.192 | 1.207 1.099 1.251
1.182 1'196 | 1.208 | 1.105! 1.252
1.134 1.200 1.209 1.114 1.258
+ OA | 19100‘ + 4190 | 19354
5.57
A
3a
Tafel 1.
Tabelle 2. Durchschnittswerte der Intensität der Gesamt-Sonnenstrahlung von |
13 Maireihen (7.p, 8.p, 15.a, 16.a u. p, 17.a u. p, 18.a u. p, 21.p, 22.a u. p, 25. p)
in Lindenherg im Jahre 1918
u | Strahlung
Höhe | (in g cal)
2.6° 3.134 19.59 0.808 36.5° ‚078
3.5° 3.200 20.5° 0.831 37.5° 082
4.5° 3.262 231.5° 0,852 38.5° ‚091
5.5° 3.320 22.5° 0.871 (0.872) 39.5° ‚099
6.5° 3.375 (0.371)1)! 28.5° 0.892 40.5° ‚109
7.59 0.419 24.5° 0.911 41.5° 116
5° J.464 25.5° 0,928 42.5° 122
1,5° 3.506 26.5° 0.945 43.5° 130
0.5° 3.544 27.5° 0.962 1 44.5° 136
1.5° 7.582 28.5° 0.977 45.5° 148
E59 IJ.616 29.5° ).992 46.5° „148 (1.149)
3.5° 3.649 30.5° 1.005 47.5° „154
4.5° 3.679 31.5° 1.017 48.5° „159
‚5.5° 0.707 32.5° „0380 49.5° „165
.6.5° 0.735 33.5° 1.040 50.5° 1.171
17.5° 0.761 34.5° 1.052 51.5° 1.176
‘85° , 0,784 35.5° |} 1.068 52.,5° 1.179
1) Bemerkung: In Klammern sind die nicht ausgeglichenen Werte an-
gegeben.
"abelle 3. Durchschnittswerte der Sonnenstrahlungs-Intensität in Potsdam
im Jahre 1912 (zweite Hälfte), 1913, 1914 und 1915 (in g cal/min cm?).
-Höhe ! 1912 | 1918 | 1914 | 1915 -Höhm ! 1912 | 1918 | 1914 | 1915
0.5°
1.5°
BO
2.5°
4.5°
|
).010. 0.017 | 0.025 | 0.08€
0.048 | 0.070 0.104 0.115
085! 0.122 | 0.170 0.194
3.127 0.175) 0.237 0.269
1.159 0.230! 0.802 0.346
).208 | 0.286 ' 0.368 | 0.418
2.244 0,386 0.420 | 0.487
).285 0,888 0.474 | 0.552
3.828 | 0.440 92.524 | 0.612
1.367 0.487 2.570| 0.668
2.410 0.585 3.615 0.720
).448 0.581 2.657 | 0,770
3.487 0.624 2.697 0.816
521 0.665 0.785 | 0.860
),555 | 0.705 D.771| 0.900
7.585 | 0.741 0.805 | 0.987
3.618 | 0.777 0.889 | 0.970
3.689 0.810: 2.868! 1.001
0.662 0.841 0.894! 1.028
2.684 | 0.87C 0.923 052
).703 0.898 0.947 072
),718' 0.9283 D.969 1.092
0.784 | 0.947 | 0.990, 1.107
9.747 0.070 1.008 L.120|
3.768 0.988 1.029 | 1.184!
7.769 1.006 | 1.040 | 1.145
9.778 1.022 | 1.054! 1.155
0.785 | 1.036 | 1.066 | 1.164
0.791 1.048 | 1.077 | 1.171
70R | 1052 1000| 1 170
30.5° 0.800 1065| 1.100 1.185
31.5° 0.802 | 1.072 | 1.110 | 1.192
32.5° 0.804| 1.079‘ 1.119 | 1.199
33.59 0.805 ed 1.127 | 1.205
345° 0.805 1.087 1.135 | 1.210
35.5° 3.806 1.091| 1.141 1.215
36.5° 2.807 1.095| 1.146 1.220
37,5° 3.809 1.098 1.151 1.225
38.5° 0810| 1.100 1.157 | 1.229
395° 2.811 "101 1.168! 1.288
10.5° 3.818 1.108 1.167| 1.286
41.5° 93.815 1.105 1.171' 1.240
425° 0.818 1106| 1.175 1.243
43.5° 3.820 1.108 | 1.177 1.246
145° 2.824 1.109 1.189 948
15.5° 93.827! 4110| 1.182 250
16.59 0.880 | 1.112| 1.185, 152
‚7.5° 0.835 | 1.118 1.185 54
48.5° 0.839| 1.114| 1.186 255
19.5° 0.844 1.115| 1.187 ”56
30.5° 0.849| 1.115 | 1.190 759
51.5° 0.854 | 1.115 | 1.190 259
32.59 0.860 1.117| 1.190, 1.260
53.5° 0.865 1.118 1.191 ‘262
545° 0.870| 1.119 | 1.192 | ..264
55.5° 0.875 1.119 1.192| 1.265
56.5° 0.880 | 1.120 | 1.193! 1.266
57.5° ‘0,885 | 1.121 1.194| 1.267
58.52 ; 0.890| 1.121 1.194 | 1.269
Kara } 0 ROR 4 19091 1.194 41 970
nn} _ Br a
{Fartsetzung anf der Rückseite diaser Tafal
es
AM
Ko
Nie
en
15°
RO
„5°
BO
5°
5°
a
950
, „5°
20,5°
en
an
28,50
J00
25.59
kr
385°
a KXcC
