Depth sounding - Knowledge

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If the depth was at a mark he would call "by the mark" followed by the number, while if it was between two marks, he would call "by the deep" followed by the estimated number; thus "by the mark five", since there is a five-fathom mark, but "by the deep six", since there is no six-fathom mark. Fractions would be called out by preceding the number with the phrases "and a half", "and a quarter", or "a quarter less"; thus 4 3/4 fathoms would be called as "a quarter less five", 3 1/2 as "and a half three", and so on. Where the depth was greater than 20 fathoms the line would commonly be marked with a single knot at 25 fathoms, two knots at 30, and so on.

274: 310:) and a spring-loaded wooden pulley block (the nipper). Again, the device was designed to operate alongside a lead and line. In this case, the buoy would be pulled behind the ship and the line threaded through the pulley. The lead could then be released. The buoy ensured that the lead fell perpendicular to the sea floor even when the ship was moving. The spring-loaded pulley would then catch the rope when the lead hit the sea bed, ensuring an accurate reading of the depth. 224: 678: 322:(Lord Kelvin) and patented in 1876. This operated on the same principle as lead and line sounding. In this case, the line consisted of a drum of piano wire whilst the lead was of a much greater weight. Later versions of Kelvin's machine also featured a motorised drum in order to facilitate the winding and unwinding of the line. These devices also featured a dial which recorded the length of line let out. 294:. The machine was designed to be fixed to a sounding lead and line. It featured a rotor which turned a dial as the lead sank to the sea floor. On striking the sea floor, the rotor would lock. Massey's sounding machine could then be hauled in and the depth could be read off the dials in fathoms. By 1811, the Royal Navy had purchased 1,750 of these devices: one for every ship in commission during the 265:. If the plummet came up clean, it meant the bottom was rock. Nautical charts provide information about the seabed materials at particular locations. Nautical charts also include depth contour lines. It is thus sometimes possible to navigate in poor visibility by noting which contour line one is closest to. 244:

and other materials, and so shaped and attached that it is possible to "read" them by eye during the day or by feel at night. Traditionally the marks were at every second or third fathom: at 2, 3, 5, 7, 10, 13, 15, 17, and 20 fathoms. The "leadsman" called out the depth as he read it off the line.

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Both Massey and Burt's machines were designed to operate in relatively shallow waters (up to 150 fathoms). With the growth of seabed telegraphy in the later nineteenth century, new machines were introduced to measure much greater depths of water. The most widely adopted deep-sea sounding machine in

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Massey's was not the only sounding machine adopted during the nineteenth century. The Royal Navy also purchased a number of Peter Burt's buoy and nipper device. This machine was quite different from Massey's. It consisted of an inflatable canvas bag (the

661:, devised a visual indicating device for measuring relatively short time intervals and by which shoal and deep depths could be registered. In 1925, the C&GS obtained the very first Fathometer, designed and built by the Submarine Signal Company. 286:

in Britain, were concerned about the reliability of lead and line sounding. The introduction of new machines was understood as a way to introduce standardised practices for sounding in a period in which naval discipline was of great concern.

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in the 1850s, the leadsmen also used old-fashioned words for some of the numbers; for example instead of "two" they would say "twain". Thus when the depth was two fathoms, they would call "by the mark twain!". The American writer

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in a concavity at the bottom of the plummet. The tallow would bring up part of the bottom sediment (sand, pebbles, clay, shells) and allow the ship's officers to better estimate their position by providing information useful for

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A Mathematical and Philosophical Dictionary: Containing an Explanation of the Terms, and an Account of the Several Subjects Comprized under the Heads Mathematics, Astronomy, and Philosophy both Natural and Experimental (Volume

352:(literally "fathom measurer"), which determined water depth by measuring the time required for an echo to return from a high-pitched sound sent through the water and reflected from the sea floor, was invented by 281:

During the nineteenth century, a number of attempts were made to mechanise depth sounding. Designs ranged from complex brass machines to relatively simple pulley systems. Navies around the world, particularly the

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has largely replaced the sextant and chronometer to establish one's position at sea, but many mariners still carry a sextant and chronometer as a backup. Many small craft still rely solely on a sounding line.

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At sea, in order to avoid repeatedly hauling in and measuring the wet line by stretching it out with one's arms, it is common practice to tie marks at intervals along the line. These marks are made of

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Measuring the depth of water by lead and line dates back to ancient civilization. It continues in widespread use today in recreational boating and as an alternative to electronic

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has increasingly displaced both of those methods. A sounding line can still be found on many vessels as a backup to electronic depth sounding in the event of malfunction.

165:, at its end. Regardless of the actual composition of the plummet, it is still called a "lead". Leads were swung, or cast, by a leadsman, usually standing in the 353: 188:

navigators are known to have used sounding leads, some of which have been uncovered by archaeologists. Sounding by lead and line continued throughout the

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Traditional terms for soundings are a source for common expressions in the English language, notably "deep six" (a sounding of 6 fathoms). On the

65:(NOAA), the agency responsible for bathymetric data in the United States, still uses fathoms and feet on nautical charts. In other countries, the 419: 62: 567: 682: 658: 560:"Sounding in silence: men, machines and the changing environment of naval discipline, 1796-1815 (free PDF available online)" 137: 537: 336:

Both lead-and-line technology and sounding machines were used during the twentieth century, but by the twenty-first,

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Hohlfelder, R., ed. (2008). "Testing the Waters: The Role of Sounding-Weights in Ancient Mediterranean Navigation".

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In answer to the need for a more accurate depth registering device, Dr. Herbert Grove Dorsey, who later joined the

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One of the most widely adopted sounding machines was developed in 1802 by Edward Massey, a clockmaker from

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Dunn, R (2012). "'Their brains over-taxed': Ships, Instruments and Users". In Dunn, R; Leggett, D (eds.).

719: 714: 576: 440: 315: 374: – Measuring the depth of water by transmitting sound waves into water and timing the return 252:, not merely for safety. Soundings of this type were usually taken using leads that had a wad of 491: 377: 688: 495: 648: 394: 209: 415: 709: 201: 8: 704: 634: 596: 299: 273: 35: 588: 533: 484: 166: 100: 92: 47: 600: 580: 170: 295: 237: 205: 109: 241: 54: 584: 698: 371: 337: 331: 291: 217: 177: 117: 39: 631:

Re-inventing the Ship: Science, Technology and the Maritime World, 1800-1918

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Soundings may also be taken to establish the ship's position as an aid in

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was instrumental in convincing the Royal Navy to adopt Massey's machine.

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devices particularly when navigating in shallower waters and on rivers.

388: 349: 283: 249: 105: 43: 158: 258: 216:. Lead and line sounding operates alongside sounding poles, and/or 189: 113: 445:(Second ed.). Oxford, England: Oxford University Press. 1969. 368: – Instrument that indicates depth below a reference surface 233: 223: 213: 58: 84:, meaning "swimming, water, sea"; it is not related to the word 23:

A sailor and a man on shore, both sounding the depth with a line

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to make maps of the floor of a body of water, such as the

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No Sea Too Deep: The History of Oceanographic Instruments

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National Oceanic & Atmospheric Administration (NOAA)

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Pages displaying short descriptions of redirect targets

69:(metres) has become the standard for measuring depth. 397: – Oceanographic research expedition (1872–1876) 116:

from this cry. The term lives on in today's world in

483: 696: 420:National Oceanic and Atmospheric Administration 63:National Oceanic and Atmospheric Administration 568:The British Journal for the History of Science 196:periods and is still commonly used today. The 532:. Oxford University Press. pp. 526–527. 458: 456: 454: 452: 380: – Type of sonar used to map the seabed 208:documents the use of a sounding lead during 641: 462: 613: 553: 551: 549: 530:The Oxford Companion to Ships and the Sea 486:The Oxford Companion to Ships and the Sea 449: 607: 507: 505: 272: 222: 136: 42:. Data taken from soundings are used in 18: 557: 391: – Electronic device used in water 90:in the sense of noise or tones, but to 16:Measuring the depths of a body of water 697: 546: 511: 53:Soundings were traditionally shown on 689:The Lead Line -- Construction and use 649:"Echo Sounding / Early Sound Methods" 502: 628: 527: 481: 200:describes lead and line sounding in 622: 475: 13: 465:The Maritime World of Ancient Rome 14: 731: 670: 676: 325: 277:Edward Massey's sounding machine 268: 132: 655:. NOAA Central Library. 2006. 618:. Bristol: Hilger. p. 28. 521: 432: 408: 72: 1: 401: 67:International System of Units 469:University of Michigan Press 77:"Sounding" derives from the 7: 416:"Sounding Pole to Sea Beam" 359: 314:the nineteenth century was 10: 736: 577:Cambridge University Press 329: 169:of a ship, up against the 127: 585:10.1017/S0007087414000934 528:Kemp, Peter, ed. (1993). 442:Oxford English Dictionary 316:Kelvin's sounding machine 120:, the technique of using 512:Hutton, Charles (1795). 492:Oxford University Press 96:, a geographical term. 691:(retrieved Sept 2006). 683:Depth sounding devices 482:Kemp, P., ed. (1976). 378:Multibeam echosounding 356:and patented in 1928. 278: 228: 142: 141:Lead and line sounding 30:, often simply called 24: 614:McConnell, A (1982). 395:Challenger expedition 276: 226: 210:William the Conqueror 140: 22: 685:at Wikimedia Commons 354:Herbert Grove Dorsey 348:The first practical 153:is a length of thin 637:. pp. 131–156. 558:Poskett, J (2015). 517:. pp. 474–475. 471:. pp. 119–176. 212:'s 1066 landing in 34:, is measuring the 635:Ashgate Publishing 300:Board of Longitude 279: 229: 143: 124:to measure depth. 112:, likely took his 25: 720:Vertical position 715:Earth observation 681:Media related to 108:, a former river 101:Mississippi River 48:seabed topography 727: 680: 664: 663: 645: 639: 638: 626: 620: 619: 611: 605: 604: 564: 555: 544: 543: 525: 519: 518: 509: 500: 499: 489: 479: 473: 472: 460: 447: 446: 436: 430: 429: 427: 426: 412: 383: 735: 734: 730: 729: 728: 726: 725: 724: 695: 694: 673: 668: 667: 647: 646: 642: 627: 623: 612: 608: 562: 556: 547: 540: 526: 522: 510: 503: 480: 476: 461: 450: 438: 437: 433: 424: 422: 414: 413: 409: 404: 381: 362: 334: 328: 320:William Thomson 296:Napoleonic Wars 271: 206:Bayeux Tapestry 161:, generally of 135: 130: 75: 61:and feet. The 55:nautical charts 17: 12: 11: 5: 733: 723: 722: 717: 712: 707: 693: 692: 686: 672: 671:External links 669: 666: 665: 640: 621: 606: 545: 538: 520: 501: 474: 448: 431: 406: 405: 403: 400: 399: 398: 392: 386: 385: 384: 369: 361: 358: 330:Main article: 327: 324: 318:, designed by 270: 267: 227:Sounding leads 134: 131: 129: 126: 74: 71: 28:Depth sounding 15: 9: 6: 4: 3: 2: 732: 721: 718: 716: 713: 711: 708: 706: 703: 702: 700: 690: 687: 684: 679: 675: 674: 662: 660: 654: 650: 644: 636: 632: 625: 617: 610: 602: 598: 594: 590: 586: 582: 578: 574: 570: 569: 561: 554: 552: 550: 541: 539:9780192820846 535: 531: 524: 516: 508: 506: 497: 493: 488: 487: 478: 470: 467:. Ann Arbor: 466: 459: 457: 455: 453: 444: 443: 435: 421: 417: 411: 407: 396: 393: 390: 387: 379: 376: 375: 373: 372:Echo sounding 370: 367: 364: 363: 357: 355: 351: 346: 343: 339: 338:echo sounding 333: 332:Echo sounding 326:Echo sounding 323: 321: 317: 311: 309: 303: 301: 297: 293: 292:Staffordshire 288: 285: 275: 269:Mechanisation 266: 264: 260: 255: 251: 246: 243: 239: 235: 225: 221: 219: 218:echo sounding 215: 211: 207: 204:, whilst the 203: 199: 195: 191: 187: 183: 179: 178:echo sounding 174: 172: 168: 164: 160: 156: 152: 148: 147:sounding line 139: 133:Lead and line 125: 123: 119: 118:echo sounding 115: 111: 107: 102: 97: 95: 94: 89: 88: 83: 80: 70: 68: 64: 60: 56: 51: 49: 45: 41: 40:body of water 37: 33: 29: 21: 656: 652: 643: 630: 624: 615: 609: 572: 566: 529: 523: 513: 485: 477: 464: 441: 439:"Sound, v". 434: 423:. Retrieved 410: 347: 335: 312: 304: 289: 280: 247: 230: 194:early modern 175: 150: 146: 144: 98: 91: 85: 81: 76: 52: 31: 27: 26: 710:Hydrography 633:. Farnham: 579:: 213–232. 366:Depth gauge 79:Old English 73:Terminology 705:Navigation 699:Categories 494:. p. 490:. London: 425:2012-07-07 402:References 389:Fishfinder 350:fathometer 284:Royal Navy 250:navigation 106:Mark Twain 44:bathymetry 263:anchoring 180:devices. 151:lead line 659:C&GS 601:40753266 593:25921680 360:See also 259:pilotage 190:medieval 114:pen name 32:sounding 234:leather 214:England 171:shrouds 159:plummet 157:with a 128:History 59:fathoms 599: 591: 536: 298:. The 254:tallow 238:calico 167:chains 597:S2CID 575:(2). 563:(PDF) 242:serge 198:Bible 186:Roman 182:Greek 122:sonar 110:pilot 93:sound 87:sound 38:of a 36:depth 589:PMID 534:ISBN 308:buoy 261:and 202:Acts 192:and 184:and 163:lead 155:rope 82:sund 581:doi 496:150 342:GPS 149:or 57:in 50:. 701:: 651:. 595:. 587:. 573:48 571:. 565:. 548:^ 515:2) 504:^ 451:^ 418:. 240:, 236:, 173:. 145:A 603:. 583:: 542:. 498:. 428:.

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