Da vi have beregnet Trykket af en 300 Favne dyb 
Vandsøjle fra Overfladen af, maa dh regnes med de Verdier 
af Tætheden, der svarer til 300 Favnes Dyb. Formelen 
for Tæthedsfladens verticale Coordinater, regnede positive 
opad fra Niveaufladen gjennem Overfladen i Station No. 
247, bliver saaledes 
Having caleulated from the surface the pressure of a 
column of water 300 fathoms deep, dh must be computed 
with the values of density that correspond to a depth 
of 300 fathoms. The formula for the vertical co-ordinates 
of the surface of density reckoned positive upwards from 
the surface of level through the top-surface of the sea at 
Station No. 247, will, therefore, be 
dh=— Ser 54,6438 — 54.6438 —53.23 (3 — 1.02783)) 
dh = Se 7 3. 23 (1.02783 — 3)) 
1 — 6co 
533.74 : 
dh=; Sy a 02783 — 3). 
Den følgende Tabel giver Stationernes Nummer, The following Table gives the numbers of the Sta- 
Bredde og Længde, Værdien af 3 for 300 Fayne, og Tæt- tions, together with their latitude and longitude, the value 
hedsfladens verticale Coordinater, dh, i Meter. | of 3 for 300 fathoms and the vertical co-ordinates, dh, of 
| the surface of density, in metres. 
Tæthedsiladen. The Surface of Density. 
Stat. | Bredde. — Længde. 3S dh Stat. — Bredde Længde 3 dh 
No. (Lat.) (Long.) No. (Lat.) (Long.) 
P.54 59°56’ 69277 Wr 1.02748 0.187 284 73 å 12 58 E. 1.02777 0.032 
P. 64 61 21 3 44 W. 791 —0.043 291 71 54 AR BW 196 771 0.064 
14 62 å 245 E. 745 0.203 295 7k BE Tt 30 12, 781 O.GI I 
24 63 10 5 58 FE. 699 0.448 296 72 15 8 9E. 778 0.027 
32 63 10 An Sie 705 0.416 297 72 36 8 p2 19, 780 0.016 
34 63 8 © 83 184 796 —0.069 298 72 82 i Sw 18, 773 0.053 
37 62 28 229) We 787 —0.021 300 73 10 8 22 W, 741 0.22 
40 63 22 B 29 W 776 0.037 302 75 16 0 54 W. 758 0.133 
42 OG 2 10 17 W. 764 0.101 303 WR 1D 3 21 781 0.OI I 
48 64 36 1022 W. 804 —0.112 304 EN 3 4 51 H. 783 0.000 
51 65 53 7 18 We 794 —0.059 305 JR å 7 56 H. 785 —6.0I I 
52 65 47 3 7 NW 779 .02I 306 75 O 10 27 H. 779 0.021 
94 59 8 4 38 E. 680 0.550 203 ga 87 ve ag 18. 777 0.032 
95 60 42 4 14 B. 684 0.528 314 FA BE DR 194 767 0.085 
96 66 8 3 © BL 767 0 085 323 FO 83 51 E. 776 0.037 
99 65 51 6 25 E. 738 0.240 3 7 30 15 39 H. 747 0.192 
107 65 21 10 44 K. 719 0 342 342 76 33 13 18 E. 762 0.112 
125 67 52 5 12 1 773 0.053 345 76 42 10 9 FE. 777 0.032 
137 67 24 353) Bi: 744 0.208 347 76 46 77: 775 0.043 
148 67 27 19 28 18 FE 0.245 349 76 30 2 7 18, 770 0.069 
176 69 18 14 BR 194 743 0.213 350 76 26 o 29 W. 747 0.192 
133 69 59 6 15 PB. 779 0.021 351 77 49 09 W. 726 0.304 
184 70 4 9 50 E. 780 0.016 352 77 56 3 29 EK 762 0.112 
199 71 18 16 17 E. 762 0.112 353 775 5 10 E. 773 0.05 
206 70 45 14 36 BE. 768 0.080 355 78 o 8 32 F. 766 0.091 
213 70 23 2130) Ht 780 0.016 357 WS 3 st Vike) JD 728 0.320 
215 70 53 2 oO W 786 —0.016 361 79 8 5 28 E. 758 0.133 
7 Fl © 8 @ Wh 794  —0.059 362 79 59 5 40 E. 764 OH 
226 70 59 7 Bi Wo 765 0.096 363 80 3 8 28 EH. 767 0.085 
241 68 41 10 54 W. 780 0.016 364 79 48 10 50 E. 756 0.144 
243 68 32 626 We 786 —0.016 368 78 43 8 20 E. 755 0.149 
245 68 21 2 8 Wa 786 —0.016 371 Te 8 13 46 H. 691 0 491 
247 68 5 3 DA IB 781 0.011 Hy 73 20 950 W. 717 0.352 
262 70 36 32 38 le 771 0.064 Hy 73 AR 16 30 VW. 701 0.438 
268 71 36 36 18 H. 790 —0.037 Hy WR UZ 18 10 W. 697 0.459 
270 TD PG 38 å JD, 789 —0.03 I Gy 78 2 5G Wi. 740 0.229 
273 73 25 31 30 BE. 783 0.000 Gy GE å 9 10 W. 724 0.315 
275 74 8 gn 12 19 789 —0.032 Gin 74. 53 12 40 W. 708 0.400 
