leg site hole date/time observer core core type section top interval bottom interval sample code piece subpiece temperature wave distance (1) wave distance (2) wave distance (3) wave distance (4) wave distance (5) wave distance (6) wave time (1) wave time (2) wave time (3) wave time (4) wave time (5) wave time (6) zero distance (1) zero distance (2) zero distance (3) zero distance (4) zero distance (5) zero distance (6) zero time (1) zero time (2) zero time (3) zero time (4) zero time (5) zero time (6) direction propagation (1) direction propagation (2) direction propagation (3) direction propagation (4) direction propagation (5) direction propagation (6) direction vibration (1) direction vibration (2) direction vibration (3) direction vibration (4) direction vibration (5) direction vibration (6) compressional/shear (1) compressional/shear (2) compressional/shear (3) compressional/shear (4) compressional/shear (5) compressional/shear (6) velocity (1) velocity (2) velocity (3) velocity (4) velocity (5) velocity (6) comments beaker add date change date latitude longitude depth top interval depth below sea floor bottom interval depth below sea floor 105 645 E 09181985 235959 BUS 012 Rotary 03 076 077 PP 010.87 06.500 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1672 12281988 144000 09081989 080000 70.45800 -64.65500 0535.2 53596 53597 105 645 E 09181985 235959 BUS 013 Rotary 01 076 077 PP 011.44 07.440 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1538 12281988 144100 09081989 075600 70.45800 -64.65500 0541.8 54256 54257 105 645 E 09181985 235959 BUS 014 Rotary 03 059 060 PP 012.85 08.320 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1544 12281988 144100 09081989 080000 70.45800 -64.65500 0553.4 55404 55405 105 645 E 09181985 235959 BUS 015 Rotary 05 076 077 PP 011.40 07.580 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1504 12281988 144200 09081989 080300 70.45800 -64.65500 0567.1 56785 56786 105 645 E 09181985 235959 BUS 016 Rotary 06 111 112 PP 013.11 08.670 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1512 12281988 144200 09081989 080400 70.45800 -64.65500 0577.1 57829 57830 105 645 E 09181985 235959 BUS 017 Rotary 05 076 077 PP 013.37 08.720 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1533 12281988 144200 09081989 080300 70.45800 -64.65500 0586.5 58726 58727 105 645 E 09181985 235959 BUS 018 Rotary 01 073 074 PP 011.85 06.960 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1703 12281988 144300 09081989 075600 70.45800 -64.65500 0590.1 59082 59083 105 645 E 09181985 235959 BUS 019 Rotary 01 076 077 PP 008.42 05.180 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1625 12281988 144300 09081989 075600 70.45800 -64.65500 0599.8 60056 60057 105 645 E 09181985 235959 BUS 020 Rotary 01 112 113 PP 008.43 05.380 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1567 12281988 144400 09081989 075600 70.45800 -64.65500 0609.3 61042 61043 105 645 E 09181985 235959 BUS 022 Rotary 02 089 090 PP 007.02 05.680 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1236 SOFTER, COMPRESSED DURING TEST, INTERVAL BOTTOM IS ASSUMED 12281988 144400 09081989 075800 70.45800 -64.65500 0625.9 62679 62680 105 645 E 09181985 235959 BUS 023 Rotary 02 075 076 PP 010.33 06.750 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1530 INTERVAL BOTTOM IS ASSUMED 12281988 144500 09081989 075800 70.45800 -64.65500 0629.9 63065 63066 105 645 E 09181985 235959 BUS 024 Rotary 02 101 102 PP 006.60 05.180 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1274 INTERVAL BOTTOM IS ASSUMED 12281988 144600 09081989 075800 70.45800 -64.65500 0639.5 64051 64052 105 645 E 09181985 235959 BUS 025 Rotary 01 075 076 PP 011.80 09.080 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1300 INTERVAL BOTTOM IS ASSUMED 12281988 144600 09081989 075600 70.45800 -64.65500 0647.7 64845 64846 105 645 E 09181985 235959 BUS 026 Rotary 02 083 084 PP 009.82 07.440 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1320 INTERVAL BOTTOM IS ASSUMED 12281988 144700 09081989 075800 70.45800 -64.65500 0658.6 65943 65944 105 645 E 09181985 235959 BUS 027 Rotary 02 075 076 PP 005.46 06.060 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 0901 SAMPLE COMPRESSED, INTERVAL BOTTOM IS ASSUMED 12281988 144700 09081989 075800 70.45800 -64.65500 0668.2 66895 66896 105 645 E 09181985 235959 BUS 028 Rotary 02 086 087 PP 008.85 06.430 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1376 INTERVAL BOTTOM IS ASSUMED 12281988 144800 09081989 075800 70.45800 -64.65500 0677.9 67876 67877 105 645 E 09181985 235959 BUS 029 Rotary 05 074 075 PP 013.75 08.430 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1631 12281988 144800 09081989 080300 70.45800 -64.65500 0692.0 69274 69275 105 645 E 09181985 235959 BUS 030 Rotary 01 076 077 PP 008.20 04.480 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1830 CLAY RICH 12281988 144900 09081989 075600 70.45800 -64.65500 0695.6 69636 69637 105 645 E 09181985 235959 BUS 032 Rotary 01 073 074 PP 014.45 07.750 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1865 CLAY RICH 12281988 144900 09081989 075600 70.45800 -64.65500 0709.7 71043 71044 105 645 E 09181985 235959 BUS 033 Rotary 05 073 074 PP 010.29 06.770 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1520 SANDY 12281988 145000 09081989 080300 70.45800 -64.65500 0720.7 72143 72144 105 645 E 09181985 235959 BUS 034 Rotary 02 075 076 PP 011.20 07.510 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1491 12281988 145000 09081989 075800 70.45800 -64.65500 0725.9 72665 72666 105 645 E 09181985 235959 BUS 035 Rotary 02 068 069 PP 009.97 05.810 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1716 12281988 145100 09081989 075800 70.45800 -64.65500 0735.5 73618 73619 105 645 E 09181985 235959 BUS 036 Rotary 01 086 087 PP 009.04 11.580 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 0781 SANDY, INTERVAL BOTTOM IS ASSUMED 12281988 145100 09081989 075600 70.45800 -64.65500 0743.7 74456 74457 105 645 E 09181985 235959 BUS 037 Rotary 02 075 076 PP 005.63 03.890 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1447 INTERVAL BOTTOM IS ASSUMED 12281988 145200 09081989 075800 70.45800 -64.65500 0754.9 75565 75566 105 645 E 09181985 235959 BUS 038 Rotary 06 102 103 PP 006.54 04.650 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1406 INTERVAL BOTTOM IS ASSUMED 12281988 145300 09081989 080400 70.45800 -64.65500 0770.5 77152 77153 105 645 E 09181985 235959 BUS 039 Rotary 02 072 073 PP 005.52 03.460 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1595 INTERVAL BOTTOM IS ASSUMED 12281988 145300 09081989 075800 70.45800 -64.65500 0774.2 77492 77493 105 645 E 09191985 235959 BUS 040 Rotary 05 079 080 PP 008.09 04.850 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1668 INTERVAL BOTTOM IS ASSUMED 12281988 145500 09081989 080300 70.45800 -64.65500 0788.3 78909 78910 105 645 E 09191985 235959 BUS 041 Rotary 02 069 070 PP 008.35 04.530 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1843 12281988 145500 09081989 075800 70.45800 -64.65500 0793.5 79419 79420 105 645 E 09191985 235959 BUS 042 Rotary 02 075 076 PP 008.70 05.090 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1709 12281988 145500 09081989 075800 70.45800 -64.65500 0803.1 80385 80386 105 645 E 09191985 235959 BUS 043 Rotary 05 096 097 PP 005.80 03.810 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1522 INTERVAL BOTTOM IS ASSUMED 12281988 145600 09081989 080300 70.45800 -64.65500 0817.2 81816 81817 105 645 E 09191985 235959 BUS 044 Rotary 05 089 090 PP 011.20 06.050 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1851 INTERVAL BOTTOM IS ASSUMED 12281988 145700 09081989 080300 70.45800 -64.65500 0826.8 82769 82770 105 645 E 09191985 235959 BUS 045 Rotary 05 069 070 PP 012.80 07.830 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1635 12281988 145700 09081989 080300 70.45800 -64.65500 0836.5 83719 83720 105 645 E 09191985 235959 BUS 046 Rotary 04 092 093 PP 005.84 03.150 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1854 12281988 145800 09081989 080200 70.45800 -64.65500 0844.6 84552 84553 105 645 E 09191985 235959 BUS 048 Rotary 04 041 042 PP 008.75 04.500 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1944 12281988 145900 09081989 080200 70.45800 -64.65500 0863.9 86431 86432 105 645 E 09191985 235959 BUS 049 Rotary 05 095 096 PP 010.40 06.300 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1651 12281988 145900 09081989 080300 70.45800 -64.65500 0874.6 87555 87556 105 645 E 09191985 235959 BUS 050 Rotary 05 056 057 PP 007.71 04.200 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1836 INTERVAL BOTTOM IS ASSUMED 12281988 150000 09081989 080300 70.45800 -64.65500 0884.2 88476 88477 105 645 E 09191985 235959 BUS 051 Rotary 01 054 055 PP 004.78 02.770 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1726 12281988 150000 09081989 075600 70.45800 -64.65500 0884.9 88544 88545 105 645 E 09181985 235959 BUS 052 Rotary 02 062 063 PP 008.33 04.980 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1673 12281988 150100 09081989 075800 70.45800 -64.65500 0889.4 89002 89003 105 645 E 09191985 235959 BUS 053 Rotary 02 078 079 PP 007.04 04.140 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1700 INTERVAL BOTTOM IS ASSUMED 12281988 150100 09081989 075800 70.45800 -64.65500 0899.1 89988 89989 105 645 E 09231985 235959 BUS 054 Rotary 05 076 077 PP 009.02 05.100 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1769 INTERVAL BOTTOM IS ASSUMED 12281988 150200 09081989 080300 70.45800 -64.65500 0913.2 91396 91397 105 645 E 09231985 235959 BUS 055 Rotary 05 073 074 PP 008.21 04.820 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1703 INTERVAL BOTTOM IS ASSUMED 12281988 150300 09081989 080300 70.45800 -64.65500 0922.8 92353 92354 105 645 E 09231985 235959 BUS 056 Rotary 05 074 075 PP 009.63 04.900 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1965 INTERVAL BOTTOM IS ASSUMED 12281988 150300 09081989 080300 70.45800 -64.65500 0932.6 93334 93335 105 645 E 09231985 235959 BUS 057 Rotary 05 053 054 PP 007.01 03.960 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1770 INTERVAL BOTTOM IS ASSUMED 12281988 150400 09081989 080300 70.45800 -64.65500 0942.2 94273 94274 105 645 E 09231985 235959 BUS 058 Rotary 05 071 072 PP 011.15 06.140 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1816 INTERVAL BOTTOM IS ASSUMED 12281988 150500 09081989 080300 70.45800 -64.65500 0951.9 95261 95262 105 645 E 09231985 235959 BUS 059 Rotary 06 079 080 PP 010.30 05.700 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1807 INTERVAL BOTTOM IS ASSUMED 12281988 150500 09081989 080400 70.45800 -64.65500 0963.1 96389 96390 105 645 E 09231985 235959 BUS 060 Rotary 05 074 075 PP 005.70 03.500 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1629 INTERVAL BOTTOM IS ASSUMED 12281988 150600 09081989 080300 70.45800 -64.65500 0971.3 97204 97205 105 645 E 09231985 235959 BUS 061 Rotary 05 065 066 PP 008.38 04.470 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1875 INTERVAL BOTTOM IS ASSUMED 12281988 150600 09081989 080300 70.45800 -64.65500 0980.9 98155 98156 105 645 E 09231985 235959 BUS 062 Rotary 05 084 085 PP 005.72 03.300 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1733 INTERVAL BOTTOM IS ASSUMED 12281988 150700 09081989 080300 70.45800 -64.65500 0990.5 99134 99135 105 645 E 09231985 235959 BUS 063 Rotary 05 088 089 PP 007.96 04.510 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1765 INTERVAL BOTTOM IS ASSUMED 12281988 150700 09081989 080300 70.45800 -64.65500 1000.2 100108 100109 105 645 E 09231985 235959 BUS 064 Rotary 05 066 067 PP 008.75 05.570 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1571 LOOSE SAND, INTERVAL BOTTOM IS ASSUMED 12281988 150800 09081989 080300 70.45800 -64.65500 1009.9 101056 101057 105 645 E 09231985 235959 BUS 065 Rotary 05 069 070 PP 007.57 04.730 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1600 INTERVAL BOTTOM IS ASSUMED 12281988 150900 09081989 080300 70.45800 -64.65500 1019.6 102029 102030 105 645 E 09231985 235959 BUS 066 Rotary 05 051 052 PP 006.85 04.770 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1436 SAND, POORLY INDURATED, INTERVAL BOTTOM IS ASSUMED 12281988 150900 09081989 080300 70.45800 -64.65500 1029.3 102982 102983 105 645 E 09241985 235959 BUS 067 Rotary 05 074 075 PP 008.27 04.170 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1983 INTERVAL BOTTOM IS ASSUMED 12281988 151000 09081989 080300 70.45800 -64.65500 1038.9 103964 103965 105 645 E 09241985 235959 BUS 068 Rotary 05 066 067 PP 008.00 04.700 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1702 INTERVAL BOTTOM IS ASSUMED 12281988 151000 09081989 080300 70.45800 -64.65500 1048.6 104926 104927 105 645 E 09241985 235959 BUS 069 Rotary 05 065 066 PP 009.96 05.300 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1879 INTERVAL BOTTOM IS ASSUMED 12281988 151100 09081989 080300 70.45800 -64.65500 1058.2 105884 105885 105 645 E 09241985 235959 BUS 070 Rotary 05 078 079 PP 008.20 05.400 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1519 INTERVAL BOTTOM IS ASSUMED 12281988 151200 09081989 080300 70.45800 -64.65500 1067.9 106868 106869 105 645 E 09241985 235959 BUS 071 Rotary 04 046 047 PP 013.30 07.100 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1873 INTERVAL BOTTOM IS ASSUMED 12281988 151200 09081989 080200 70.45800 -64.65500 1075.6 107606 107607 105 645 E 09241985 235959 BUS 072 Rotary 05 074 075 PP 012.00 08.800 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1364 INTERVAL BOTTOM IS ASSUMED 12281988 151300 09081989 080300 70.45800 -64.65500 1086.7 108743 108744 105 645 E 09241985 235959 BUS 073 Rotary 04 063 064 PP 008.80 04.400 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 2000 INTERVAL BOTTOM IS ASSUMED 12281988 151300 09081989 080200 70.45800 -64.65500 1094.9 109553 109554 105 645 E 09241985 235959 BUS 074 Rotary 05 089 090 PP 007.36 04.080 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1804 INTERVAL BOTTOM IS ASSUMED 12281988 151400 09081989 080300 70.45800 -64.65500 1105.8 110669 110670 105 645 E 09241985 235959 BUS 075 Rotary 04 089 090 PP 008.54 05.450 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1567 INTERVAL BOTTOM IS ASSUMED 12281988 151400 09081989 080200 70.45800 -64.65500 1113.8 111469 111470 105 645 E 09241985 235959 BUS 076 Rotary 05 079 080 PP 005.92 03.410 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1736 INTERVAL BOTTOM IS ASSUMED 12281988 151500 09081989 080300 70.45800 -64.65500 1124.8 112559 112560 105 645 E 09241985 235959 BUS 077 Rotary 04 127 128 PP 004.88 02.430 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 2008 HARD CLAY, INTERVAL BOTTOM IS ASSUMED 12281988 151600 09081989 080200 70.45800 -64.65500 1132.7 113396 113397 105 645 E 09241985 235959 BUS 078 Rotary 05 074 075 PP 009.78 05.770 000.00 00.000 Along length of core Along length of core compressional (same directions of propagation and vibration) 1695 INTERVAL BOTTOM IS ASSUMED 12281988 151600 09081989 080300 70.45800 -64.65500 1143.7 114443 114444