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 110 671 B 06291986 235959 TAY 010 Hydraulic (Advanced) Piston Core 02 106 109 PP 069.56 088.78 20.800 08.610 099.78 099.78 01.550 01.550 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1570 1558 CALCAREOUS MUD 01131989 114000 09081989 075800 15.52583 -58.73250 0084.9 8596 8599 110 671 B 06291986 235959 TAY 010 Hydraulic (Advanced) Piston Core 03 111 114 PP 070.01 087.34 20.160 09.300 099.87 099.87 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1603 1613 01131989 114100 09081989 080100 15.52583 -58.73250 0086.4 8751 8754 110 671 B 06291986 235959 TAY 010 Hydraulic (Advanced) Piston Core 04 114 117 PP 069.97 091.47 20.260 06.860 099.87 099.87 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1596 1576 01131989 114200 09081989 080200 15.52583 -58.73250 0087.9 8904 8907 110 671 B 06291986 235959 TAY 011 Extended Core Barrel 02 064 067 PP 070.43 087.48 20.190 09.350 099.85 099.85 01.550 01.550 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1578 1586 01131989 114200 09081989 075800 15.52583 -58.73250 0093.1 9373 9376 110 671 B 06291986 235959 MOR 011 Extended Core Barrel 04 069 073 PP 068.89 091.70 21.840 06.880 099.86 099.86 01.640 01.640 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1533 1557 01131989 114300 09081989 080200 15.52583 -58.73250 0096.1 9678 9682 110 671 B 06291986 235959 MOR 011 Extended Core Barrel 06 070 073 PP 070.47 088.57 20.550 08.630 099.81 099.81 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1543 1583 01131989 114400 09081989 080400 15.52583 -58.73250 0099.1 9979 9982 110 671 B 06291986 235959 MOR 012 Extended Core Barrel 02 009 012 PP 069.06 091.31 21.170 07.180 099.81 099.81 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1566 1504 FRAME IS DEFORMING THE SEDIMENT DURING THIS TEST 01131989 114500 09081989 075800 15.52583 -58.73250 0102.6 10268 10271 110 671 B 06291986 235959 MOR 012 Extended Core Barrel 03 008 011 PP 068.50 091.86 21.720 07.470 099.85 099.85 01.540 01.540 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1554 1347 01131989 114600 09081989 080100 15.52583 -58.73250 0104.1 10417 10420 110 671 B 06291986 235959 MOR 012 Extended Core Barrel 04 008 012 PP 068.63 090.09 21.760 07.940 099.76 099.76 01.540 01.540 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1540 1511 01131989 114700 09081989 080200 15.52583 -58.73250 0105.6 10567 10571 110 671 B 06291986 235959 MOR 013 Extended Core Barrel 02 007 010 PP 069.07 23.500 099.84 01.540 Along length of core Along length of core compressional (same directions of propagation and vibration) 1401 ASH, POOR SIGNAL IN DIRECTION B, CRACKS IN SAMPLE 01131989 114800 09081989 075800 15.52583 -58.73250 0112.1 11216 11219 110 671 B 06291986 235959 MOR 013 Extended Core Barrel 03 008 012 PP 068.87 088.87 21.330 10.020 099.78 099.78 01.550 01.550 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1563 1288 BROWN CLAY 01131989 114900 09081989 080100 15.52583 -58.73250 0113.6 11367 11371 110 671 B 06291986 235959 MOR 013 Extended Core Barrel 04 010 013 PP 081.12 087.53 13.580 09.420 099.78 099.78 01.540 01.540 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1550 1555 01131989 115000 09081989 080200 15.52583 -58.73250 0115.1 11519 11522 110 671 B 06291986 235959 MOR 013 Extended Core Barrel 06 018 022 PP 068.56 088.45 24.420 11.450 099.89 099.89 01.570 01.570 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1371 1158 MEASUREMENTS MAY BE QUESTIONABLE 01131989 120100 09081989 080400 15.52583 -58.73250 0118.1 11827 11831 110 671 B 06291986 235959 MOR 014 Extended Core Barrel 02 009 012 PP 068.36 089.60 24.720 11.200 099.89 099.89 01.570 01.570 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1362 1069 MEASUREMENTS MAY BE QUESTIONABLE 01131989 133700 09081989 075800 15.52583 -58.73250 0121.6 12168 12171 110 671 B 06291986 235959 MOR 014 Extended Core Barrel 03 009 012 PP 068.76 088.24 21.200 08.800 099.93 099.93 01.540 01.540 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1585 1610 01131989 133800 09081989 080100 15.52583 -58.73250 0123.1 12318 12321 110 671 B 06291986 235959 MOR 014 Extended Core Barrel 04 018 021 PP 069.47 087.76 20.540 09.060 099.84 099.84 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1598 1604 01131989 133900 09081989 080200 15.52583 -58.73250 0124.6 12477 12480 110 671 B 06301986 235959 WIL 014 Extended Core Barrel 06 017 019 PP 069.45 084.54 20.540 11.070 099.84 099.84 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1598 1602 01241989 093300 09081989 080500 15.52583 -58.73250 0127.6 12776 12778 110 671 B 06301986 235959 WIL 015 Extended Core Barrel 02 112 115 PP 066.88 064.92 22.080 20.950 099.96 099.96 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1610 1804 LITHIFIED ASH 01131989 134300 09081989 075800 15.52583 -58.73250 0131.1 13222 13225 110 671 B 06301986 235959 WIL 015 Extended Core Barrel 06 076 078 PP 073.44 072.42 17.380 20.580 099.96 099.96 01.530 01.530 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1673 1446 ISOLATED SOLID CLAST 01131989 134400 09081989 080400 15.52583 -58.73250 0137.1 13786 13788 110 671 B 06301986 235959 WIL 018 Extended Core Barrel 02 060 062 PP 070.35 074.02 19.830 17.700 099.97 099.97 01.510 01.510 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1617 1603 01131989 134500 09081989 075800 15.52583 -58.73250 0159.6 16020 16022 110 671 B 06301986 235959 WIL 018 Extended Core Barrel 04 060 062 PP 070.22 077.11 20.280 15.820 099.85 099.85 01.510 01.510 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1579 1589 01131989 134600 09081989 080200 15.52583 -58.73250 0162.6 16320 16322 110 671 B 06301986 235959 WIL 019 Extended Core Barrel 02 044 047 PP 080.91 080.23 12.790 13.520 099.89 099.89 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1683 1637 01241989 093700 09081989 075900 15.52583 -58.73250 0169.1 16954 16957 110 671 B 06301986 235959 WIL 020 Extended Core Barrel 04 068 070 PP 069.78 066.60 20.140 22.040 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1621 1625 01131989 134700 09081989 080200 15.52583 -58.73250 0181.6 18228 18230 110 671 B 06301986 235959 WIL 020 Extended Core Barrel 06 053 055 PP 071.25 061.29 19.370 25.830 100.00 100.00 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1610 1592 FRACTURED DURING TEST 01131989 134800 09081989 080400 15.52583 -58.73250 0184.6 18513 18515 110 671 B 06301988 235959 MOR 021 Extended Core Barrel 02 081 085 PP 070.41 089.55 19.480 07.840 099.88 099.88 01.510 01.510 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1640 1632 01131989 134900 09081989 075800 15.52583 -58.73250 0188.1 18891 18895 110 671 B 06301986 235959 MOR 022 Extended Core Barrel 02 125 128 PP 079.56 081.61 13.940 12.770 099.90 099.90 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1639 1627 LIGHT OLIVE BROWN MOTTLED MUDSTONE 01241989 094000 09081989 075900 15.52583 -58.73250 0197.6 19885 19888 110 671 B 06301986 235959 MOR 022 Extended Core Barrel 04 029 031 PP 080.63 079.78 13.270 13.860 099.84 099.84 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1635 1626 LIGHT OLIVE BROWN MOTTLED MUDSTONE 01131989 135200 09081989 080200 15.52583 -58.73250 0200.6 20089 20091 110 671 B 06301986 235959 MOR 022 Extended Core Barrel 07 033 035 PP 073.12 079.06 17.160 13.540 099.87 099.87 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1710 1731 LIGHT OLIVE BROWN MUDSTONE 01131989 135200 09081989 080500 15.52583 -58.73250 0205.1 20543 20545 110 671 B 06301986 235959 MOR 023 Extended Core Barrel 03 003 005 PP 078.36 081.56 15.050 12.680 099.89 099.89 01.510 01.510 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1590 1641 BISCUIT 01131989 135500 09081989 080100 15.52583 -58.73250 0208.6 20863 20865 110 671 B 06301986 235959 MOR 023 Extended Core Barrel 04 047 049 PP 083.97 086.85 14.610 09.160 099.96 099.96 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1222 1716 BISCUIT, SAMPLE IS DEFORMING DURING TEST 01131989 135600 09081989 080200 15.52583 -58.73250 0209.8 21027 21029 110 671 B 06301986 235959 MOR 024 Extended Core Barrel 01 078 081 PP 077.86 078.73 14.130 13.830 099.87 099.87 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1745 1717 01131989 135700 09081989 075700 15.52583 -58.73250 0215.1 21588 21591 110 671 B 06301986 235959 MOR 024 Extended Core Barrel 02 125 128 PP 075.43 16.050 099.87 01.520 Along length of core Along length of core compressional (same directions of propagation and vibration) 1682 BISCUIT,DISTURBED,DIRECTION NOT GIVEN (CALLED A FOR ENTRY IN DATABASE) 01131989 140100 09081989 075800 15.52583 -58.73250 0216.6 21785 21788 110 671 B 06301986 235959 MOR 024 Extended Core Barrel 03 047 049 PP 086.57 09.690 099.87 01.520 Along length of core Along length of core compressional (same directions of propagation and vibration) 1628 DIRECTION NOT GIVEN, ASSUMED TO BE A FOR ENTRY INTO DATABASE 01131989 135800 09081989 080100 15.52583 -58.73250 0218.1 21857 21859 110 671 B 06301986 235959 TAY 025 Extended Core Barrel 02 058 060 PP 076.79 080.89 15.170 12.830 099.83 099.83 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1689 1676 01131989 140200 09081989 075800 15.52583 -58.73250 0226.1 22668 22670 110 671 B 06301986 235959 TAY 025 Extended Core Barrel 04 099 101 PP 080.02 079.08 13.580 14.360 099.83 099.83 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1644 1617 01131989 140300 09081989 080200 15.52583 -58.73250 0229.1 23009 23011 110 671 B 06301986 235959 TAY 025 Extended Core Barrel 06 040 042 PP 077.21 079.78 14.760 13.430 099.90 099.90 01.500 01.500 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1711 1687 DIRECTION B IS ASSUMED, NOT GIVEN ON PAPER DATA FORM 01131989 140400 09081989 080400 15.52583 -58.73250 0232.1 23250 23252 110 671 B 06301986 235959 TAY 026 Extended Core Barrel 03 071 074 PP 079.40 074.64 13.900 17.040 099.90 099.90 01.509 01.509 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1654 1626 01131989 140500 09081989 080100 15.52583 -58.73250 0237.1 23781 23784 110 671 B 07011986 235959 WIL 027 Extended Core Barrel 02 070 072 PP 076.26 073.88 15.510 17.080 100.00 100.00 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1695 1677 BISCUIT 01131989 140700 09081989 075800 15.52583 -58.73250 0245.1 24580 24582 110 671 B 07011986 235959 WIL 027 Extended Core Barrel 04 070 072 PP 071.05 063.01 18.720 23.530 100.00 100.00 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1681 1679 01131989 140800 09081989 080200 15.52583 -58.73250 0248.1 24880 24882 110 671 B 07011986 235959 WIL 028 Extended Core Barrel 02 079 082 PP 076.22 070.33 16.760 18.860 099.91 099.91 01.550 01.550 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1558 1709 01131989 140900 09081989 075800 15.52583 -58.73250 0254.6 25539 25542 110 671 B 07011986 235959 WIL 028 Extended Core Barrel 04 085 089 PP 084.66 076.46 10.640 15.260 099.90 099.90 01.550 01.550 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1677 1710 01131989 141100 09081989 080200 15.52583 -58.73250 0257.6 25845 25849 110 671 B 07011986 235959 WIL 028 Extended Core Barrel 06 045 048 PP 079.26 070.39 13.730 19.140 099.90 099.90 01.550 01.550 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1695 1678 01131989 141100 09081989 080400 15.52583 -58.73250 0260.6 26105 26108 110 671 B 07011986 235959 MOR 029 Extended Core Barrel 03 063 066 PP 071.47 089.61 18.880 08.090 099.87 099.87 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1636 1562 01131989 141200 09081989 080100 15.52583 -58.73250 0265.6 26623 26626 110 671 B 07011986 235959 MOR 030 Extended Core Barrel 02 053 057 PP 074.97 082.91 17.410 14.380 099.88 099.88 01.520 01.520 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1568 1320 01131989 141300 09081989 075800 15.52583 -58.73250 0273.6 27413 27417 110 671 B 07011986 235959 MOR 030 Extended Core Barrel 04 074 077 PP 082.00 12.840 099.92 01.520 Along length of core Along length of core compressional (same directions of propagation and vibration) 1583 SMALL SAMPLE, BISCUIT 01131989 141400 09081989 080200 15.52583 -58.73250 0276.6 27734 27737 110 671 B 07011986 235959 MOR 030 Extended Core Barrel 06 065 068 PP 071.54 079.19 18.630 13.990 099.95 099.95 01.520 01.520 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1660 1665 BISCUIT 01131989 141500 09081989 080400 15.52583 -58.73250 0279.6 28025 28028 110 671 B 07011986 235959 MOR 031 Extended Core Barrel CC 010 014 PP 067.15 070.72 20.860 18.880 099.84 099.84 01.530 01.530 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1691 1678 BISCUIT 01131989 141500 15.52583 -58.73250 0283.7 28380 28384 110 671 B 07011986 235959 MOR 032 Extended Core Barrel 02 066 070 PP 065.48 082.12 22.140 12.160 099.98 099.98 01.520 01.520 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1673 1679 MARL 01131989 141800 09081989 075800 15.52583 -58.73250 0292.6 29326 29330 110 671 B 07011986 235959 MOR 032 Extended Core Barrel 04 067 070 PP 063.11 078.56 23.360 14.150 099.98 099.98 01.520 01.520 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1688 1696 MARL 01131989 141900 09081989 080200 15.52583 -58.73250 0295.6 29627 29630 110 671 B 07011986 235959 MOR 032 Extended Core Barrel 06 066 068 PP 070.71 078.67 17.980 13.110 099.98 099.98 01.520 01.520 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1778 1839 MARL 01131989 142000 09081989 080400 15.52583 -58.73250 0298.6 29926 29928 110 671 B 07011986 235959 MOR 033 Extended Core Barrel 01 065 067 PP 082.65 073.15 11.570 17.380 099.98 099.98 01.520 01.520 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1724 1692 BISCUIT 01131989 142000 09081989 075700 15.52583 -58.73250 0300.6 30125 30127 110 671 B 07011986 235959 MOR 033 Extended Core Barrel 02 068 070 PP 072.03 058.27 075.99 18.250 30.200 15.840 099.98 099.98 099.98 01.520 01.520 01.520 Horizontally and perpendicular to the split core surface Along length of core Horizontally and parallel to the split core surface Horizontally and perpendicular to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1671 1454 1675 BISCUIT 01131989 142100 09081989 075800 15.52583 -58.73250 0302.1 30278 30280 110 671 B 07021986 235959 WIL 034 Extended Core Barrel 02 084 086 PP 073.83 17.890 099.97 01.510 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1596 BISCUIT 01241989 094100 09081989 075900 15.52583 -58.73250 0307.6 30844 30846 110 671 B 07021986 235959 WIL 034 Extended Core Barrel 04 070 072 PP 074.32 059.55 17.040 26.080 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1652 1645 BISCUIT WITH SOME SOFT MATERIAL 01241989 094300 09081989 080200 15.52583 -58.73250 0310.6 31130 31132 110 671 B 07021986 235959 WIL 034 Extended Core Barrel 06 070 072 PP 069.40 055.95 19.240 26.970 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1724 1729 01241989 094400 09081989 080500 15.52583 -58.73250 0313.6 31430 31432 110 671 B 07021986 235959 WIL 035 Extended Core Barrel 02 070 072 PP 069.95 052.29 19.270 30.010 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1690 1673 01241989 094500 09081989 075900 15.52583 -58.73250 0317.1 31780 31782 110 671 B 07021986 235959 WIL 035 Extended Core Barrel 04 070 072 PP 070.35 074.91 18.500 15.860 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1743 1746 01241989 094600 09081989 080200 15.52583 -58.73250 0320.1 32080 32082 110 671 B 07021986 235959 WIL 035 Extended Core Barrel 06 071 073 PP 070.26 19.110 099.97 01.510 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1688 01241989 094700 09081989 080500 15.52583 -58.73250 0323.1 32381 32383 110 671 B 07021986 235959 WIL 036 Extended Core Barrel 02 070 072 PP 070.79 059.52 18.480 25.040 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1720 1719 01241989 094800 09081989 075900 15.52583 -58.73250 0326.6 32730 32732 110 671 B 07021986 235959 WIL 036 Extended Core Barrel 04 075 079 PP 076.73 058.30 061.22 15.510 25.510 23.840 100.00 100.00 100.00 01.510 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and parallel to the split core surface Horizontally and perpendicular to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1662 1738 1737 GREEN ZONE 01131989 142800 09081989 080200 15.52583 -58.73250 0329.6 33035 33039 110 671 B 07021986 235959 WIL 036 Extended Core Barrel 06 064 066 PP 071.18 068.24 18.180 19.890 100.00 100.00 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1729 1728 01131989 142900 09081989 080400 15.52583 -58.73250 0332.6 33324 33326 110 671 B 07021986 235959 WIL 037 Extended Core Barrel 03 005 007 PP 079.91 13.440 099.90 01.510 Along length of core Along length of core compressional (same directions of propagation and vibration) 1676 CLAY/ALTERED ASH 01131989 143000 09081989 080100 15.52583 -58.73250 0337.6 33765 33767 110 671 B 07021986 235959 WIL 037 Extended Core Barrel 03 100 104 PP 068.74 077.51 19.680 14.980 099.90 099.90 01.510 01.510 Along length of core Horizontally and parallel to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1715 1662 BISCUIT 01131989 142900 09081989 080100 15.52583 -58.73250 0337.6 33860 33864 110 671 B 07021986 235959 WIL 038 Extended Core Barrel 03 065 069 PP 070.11 079.18 18.810 13.960 099.87 099.87 01.520 01.520 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1721 1663 01131989 143100 09081989 080100 15.52583 -58.73250 0347.1 34775 34779 110 671 B 07021986 235959 MOR 040 Extended Core Barrel 02 136 138 PP 084.44 10.780 099.68 01.690 Along length of core Along length of core compressional (same directions of propagation and vibration) 1677 FRACTURED 01241989 094900 09081989 075900 15.52583 -58.73250 0364.6 36596 36598 110 671 B 07021986 235959 MOR 040 Extended Core Barrel 04 074 076 PP 075.08 080.00 15.600 12.910 099.68 099.68 01.690 01.690 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1769 1754 CALCAREOUS MUDSTONE, GOOD BISCUIT 01241989 095000 09081989 080200 15.52583 -58.73250 0367.6 36834 36836 110 671 B 07021986 235959 MOR 041 Extended Core Barrel 04 040 040 PP 066.18 21.330 094.78 04.340 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1683 MEASUREMENT THROUGH LINER 01241989 095000 09081989 080200 15.52583 -58.73250 0377.1 37750 37750 110 671 B 07021986 235959 MOR 041 Extended Core Barrel 06 058 060 PP 072.71 082.77 17.060 11.320 099.68 099.68 01.690 01.690 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1755 1756 01241989 095300 09081989 080500 15.52583 -58.73250 0380.1 38068 38070 110 671 B 07021986 235959 MOR 042 Extended Core Barrel 02 069 072 PP 072.73 073.64 17.080 16.520 099.68 099.68 01.690 01.690 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1751 1756 01241989 095400 09081989 075900 15.52583 -58.73250 0379.2 37989 37992 110 671 B 07021986 235959 MOR 042 Extended Core Barrel 04 064 068 PP 072.87 17.760 099.68 01.690 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1668 SAMPLE CRACKED IN DIRECTION A 01241989 095400 09081989 080200 15.52583 -58.73250 0382.2 38284 38288 110 671 B 07031986 235959 WIL 042 Extended Core Barrel 06 051 055 PP 074.51 076.35 16.430 15.530 099.93 099.93 01.510 01.510 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1704 1682 01131989 144000 09081989 080400 15.52583 -58.73250 0385.2 38571 38575 110 671 B 07031986 235959 WIL 043 Extended Core Barrel 02 084 086 PP 072.34 18.010 099.93 01.510 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1672 SAMPLE CRACKED IN DIRECTION A 01131989 144000 09081989 075800 15.52583 -58.73250 0388.7 38954 38956 110 671 B 07031986 235959 WIL 044 Extended Core Barrel 02 062 065 PP 080.56 075.01 067.86 12.810 15.800 20.190 099.93 099.93 099.93 01.510 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and parallel to the split core surface Horizontally and perpendicular to the split core surface Along length of core Horizontally and parallel to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1714 1744 1717 01131989 144100 09081989 075800 15.52583 -58.73250 0398.2 39882 39885 110 671 B 07031986 235959 WIL 046 Extended Core Barrel 02 042 044 PP 064.49 22.280 096.28 03.430 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1686 MEASUREMENT THROUGH THE LINER 01131989 144300 09081989 075800 15.52583 -58.73250 0417.2 41762 41764 110 671 B 07031986 235959 WIL 046 Extended Core Barrel 03 101 103 PP 075.98 15.300 099.85 01.550 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1736 ASH/MUDSTONE 01131989 144300 09081989 080100 15.52583 -58.73250 0418.7 41971 41973 110 671 B 07031986 235959 TAY 046 Extended Core Barrel 04 087 089 PP 090.07 07.430 099.85 01.550 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1663 CALCAREOUS MUDSTONE, GRAY 01241989 095600 09081989 080200 15.52583 -58.73250 0420.2 42107 42109 110 671 B 07031986 235959 TAY 046 Extended Core Barrel 05 012 014 PP 063.39 25.050 099.85 01.550 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1551 BROWN MUDSTONE, WEAK SIGNAL (THROUGH LINER), ZERO VALUES MAY BE WRONG 01241989 095600 09081989 080300 15.52583 -58.73250 0421.7 42182 42184 110 671 B 07031986 235959 TAY 047 Extended Core Barrel 02 056 058 PP 064.68 22.920 099.85 01.550 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1646 MEASURED THROUGH LINER 01241989 095700 09081989 075900 15.52583 -58.73250 0426.7 42726 42728 110 671 B 07031986 235959 TAY 047 Extended Core Barrel 04 075 077 PP 064.81 22.710 096.45 03.390 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1638 MEASURED THROUGH LINER 01241989 095800 09081989 080200 15.52583 -58.73250 0429.7 43045 43047 110 671 B 07031986 235959 TAY 047 Extended Core Barrel 06 077 080 PP 065.77 21.750 096.45 03.390 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1671 MEASURED THROUGH LINER 01241989 095800 09081989 080500 15.52583 -58.73250 0432.7 43347 43350 110 671 B 07031986 235959 TAY 048 Extended Core Barrel 01 094 097 PP 065.81 21.760 096.35 03.340 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1658 MEASURED THROUGH LINER 01241989 095900 09081989 075700 15.52583 -58.73250 0434.7 43564 43567 110 671 B 07031986 235959 TAY 048 Extended Core Barrel 02 098 100 PP 066.11 21.270 096.52 03.230 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1686 FRACTURED GRAY CLAYSTONE, MEASURED THROUGH LINER 01241989 100000 09081989 075900 15.52583 -58.73250 0436.2 43718 43720 110 671 B 07031986 235959 TAY 048 Extended Core Barrel 04 024 026 PP 066.04 22.500 096.52 03.230 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1582 WEAK SIGNAL, MEASURED THROUGH LINER 01241989 100100 09081989 080200 15.52583 -58.73250 0439.2 43944 43946 110 671 B 07031986 235959 TAY 048 Extended Core Barrel 06 095 097 PP 065.89 22.040 096.39 03.310 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1628 IN LINER, FRACTURED MUDSTONE 01131989 145600 09081989 080400 15.52583 -58.73250 0442.2 44315 44317 110 671 B 07031986 235959 TAY 049 Extended Core Barrel 03 016 019 PP 065.46 22.310 096.46 03.310 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1632 IN LINER 01131989 145700 09081989 080100 15.52583 -58.73250 0447.2 44736 44739 110 671 B 07031986 235959 TAY 049 Extended Core Barrel 03 028 030 PP 064.85 21.920 096.46 03.310 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1699 IN LINER 01131989 145700 09081989 080100 15.52583 -58.73250 0447.2 44748 44750 110 671 B 07031986 235959 TAY 050 Extended Core Barrel 02 109 111 PP 063.85 22.920 096.46 03.310 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1663 SCALY GREEN/BROWN MUDSTONE, THROUGH LINER 01131989 145800 09081989 075800 15.52583 -58.73250 0455.2 45629 45631 110 671 B 07031986 235959 TAY 050 Extended Core Barrel 04 076 078 PP 064.10 22.670 096.46 03.310 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1671 BISCUIT, GREEN COHERENT (NO SCALES), THROUGH LINER 01131989 145900 09081989 080200 15.52583 -58.73250 0458.2 45896 45898 110 671 B 07031986 235959 TAY 050 Extended Core Barrel 06 035 037 PP 064.13 26.090 096.46 03.310 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1419 WEAK SIGNAL, THROUGH LINER 01131989 150000 09081989 080400 15.52583 -58.73250 0461.2 46155 46157 110 671 B 07031986 235959 TAY 050 Extended Core Barrel 06 055 057 PP 064.46 22.620 096.58 03.200 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1654 THROUGH LINER 01131989 150200 09081989 080400 15.52583 -58.73250 0461.2 46175 46177 110 671 B 07031986 235959 TAY 052 Extended Core Barrel 02 003 005 PP 074.09 066.26 16.180 20.770 099.95 099.95 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1763 1749 BISCUIT 01131989 150400 09081989 075800 15.52583 -58.73250 0474.2 47423 47425 110 671 B 07041986 235959 TAY 052 Extended Core Barrel 04 058 060 PP 071.92 17.780 099.95 01.510 Along length of core Along length of core compressional (same directions of propagation and vibration) 1723 DIRECTION NOT GIVEN (ASSUMED TO BE A FOR ENTRY INTO DATABASE) 01131989 150500 09081989 080200 15.52583 -58.73250 0477.2 47778 47780 110 671 B 07041986 235959 TAY 054 Extended Core Barrel 02 100 102 PP 079.47 081.95 15.250 11.930 099.91 099.91 01.510 01.510 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1488 1724 BISCUIT 01131989 150900 09081989 075800 15.52583 -58.73250 0493.2 49420 49422 110 671 B 07041986 235959 TAY 054 Extended Core Barrel 04 020 022 PP 081.37 082.56 12.180 11.500 099.91 099.91 01.510 01.510 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1738 1737 BISCUIT 01131989 151000 09081989 080200 15.52583 -58.73250 0496.2 49640 49642 110 671 B 07041986 235959 TAY 054 Extended Core Barrel 06 057 059 PP 081.43 079.59 12.230 13.240 099.91 099.91 01.510 01.510 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1724 1732 LIGHT BROWN CLAYSTONE, BISCUIT 01241989 100300 09081989 080500 15.52583 -58.73250 0499.2 49977 49979 110 671 B 07041986 235959 TAY 055 Extended Core Barrel 02 072 074 PP 065.25 22.440 096.83 03.010 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1625 IN LINER, ORANGE BROWN FRACTURED CLAYSTONE 01131989 151500 09081989 075800 15.52583 -58.73250 0502.7 50342 50344 110 671 B 07041986 235959 TAY 055 Extended Core Barrel 04 050 052 PP 064.81 25.090 096.83 03.010 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1450 POOR SIGNAL, FRACTURED 01131989 151600 09081989 080200 15.52583 -58.73250 0505.7 50620 50622 110 671 B 07041986 235959 TAY 055 Extended Core Barrel 06 040 042 PP 063.47 22.490 096.83 03.010 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1713 GOOD SIGNAL, FRACTURED ORANGE BROWN CLAYSTONE, THROUGH LINER 01131989 151700 09081989 080400 15.52583 -58.73250 0508.7 50910 50912 110 671 B 07041986 235959 TAY 056 Extended Core Barrel 02 040 042 PP 076.38 073.24 15.470 16.950 099.97 099.97 01.510 01.510 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1690 1731 BROWN MUDSTONE 01131989 152000 09081989 075800 15.52583 -58.73250 0512.2 51260 51262 110 671 B 07041986 235959 TAY 056 Extended Core Barrel 04 068 070 PP 065.94 21.080 096.88 03.010 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1712 FRACTURED BROWN MUDSTONE, MEASURED THROUGH LINER 01131989 152100 09081989 080200 15.52583 -58.73250 0515.2 51588 51590 110 671 B 07041986 235959 TAY 056 Extended Core Barrel 06 069 071 PP 065.02 21.810 099.85 01.520 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1717 FRACTURED BROWN MUDSTONE, MEASURED THROUGH LINER 01241989 100400 09081989 080500 15.52583 -58.73250 0518.2 51889 51891 110 671 B 07041986 235959 TAY 058 Extended Core Barrel 02 054 056 PP 084.23 081.80 11.150 12.070 099.85 099.85 01.520 01.520 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1622 1711 FRACTURED WITH PRESERVED SEDIMENT STRUCTURES 01131989 152300 09081989 075800 15.52583 -58.73250 0531.2 53174 53176 110 671 B 07041986 235959 TAY 058 Extended Core Barrel 04 038 040 PP 066.20 21.420 096.05 03.550 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1670 IN LINER 01131989 152400 09081989 080200 15.52583 -58.73250 0534.2 53458 53460 110 671 B 07041986 235959 TAY 058 Extended Core Barrel 06 015 017 PP 066.16 21.030 096.05 03.550 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1710 COMPACTED (DEFORMED BURROWS) BLUE GRAY CLAYSTONE (ASH), IN LINER 01131989 152600 09081989 080400 15.52583 -58.73250 0537.2 53735 53737 110 671 B 07041986 235959 MOR 059 Extended Core Barrel 02 065 068 PP 069.34 074.49 20.360 16.960 099.96 099.96 01.500 01.500 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1624 1647 BLUE GREEN CLAYSTONE CHUNK 01241989 100500 09081989 075900 15.52583 -58.73250 0540.7 54135 54138 110 671 B 07041986 235959 MOR 059 Extended Core Barrel 06 070 072 PP 067.96 073.52 20.480 17.050 099.96 099.96 01.500 01.500 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1686 1700 01241989 100600 09081989 080500 15.52583 -58.73250 0546.7 54740 54742 110 671 B 07041986 235959 MOR 060 Extended Core Barrel 02 056 059 PP 066.81 070.30 21.040 18.390 099.96 099.96 01.500 01.500 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1697 1756 DIRECTION C NOT GIVEN ON PAPER FORM (ASSUMED TO BE C) 01241989 100700 09081989 075900 15.52583 -58.73250 0550.2 55076 55079 110 671 B 07041986 235959 MOR 061 Extended Core Barrel 02 066 069 PP 075.44 064.64 15.900 23.110 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1703 1634 01241989 100800 09081989 075900 15.52583 -58.73250 0559.7 56036 56039 110 671 B 07041986 235959 MOR 061 Extended Core Barrel 04 076 078 PP 070.08 078.28 18.750 14.030 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1732 1730 01241989 100900 09081989 080200 15.52583 -58.73250 0562.7 56346 56348 110 671 B 07041986 235959 MOR 062 Extended Core Barrel 02 040 042 PP 079.12 081.34 13.820 12.390 099.96 099.96 01.500 01.500 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1692 1710 LIGHT GRAY NANNO OOZE TO CALCAREOUS MUDSTONE 01241989 100900 09081989 075900 15.52583 -58.73250 0569.2 56960 56962 110 671 B 07051986 235959 MOR 062 Extended Core Barrel 04 066 068 PP 074.53 077.95 16.650 14.340 099.87 099.87 01.510 01.510 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1674 1708 DARK GRAY/LIGHT GRAY LAMINATED MUD 01131989 153500 09081989 080200 15.52583 -58.73250 0572.2 57286 57288 110 671 B 07051986 235959 MOR 062 Extended Core Barrel 06 145 147 PP 079.43 082.37 13.710 11.660 099.87 099.87 01.510 01.510 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1675 1724 OLIVE GRAY MUD(STONE) 01131989 153700 09081989 080400 15.52583 -58.73250 0575.2 57665 57667 110 671 B 07051986 235959 MOR 063 Extended Core Barrel 02 071 072 PP 075.27 076.11 15.740 15.230 099.88 099.88 01.670 01.670 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1749 1753 BLUE GRAY LAMINATED MUDSTONE 01131989 153800 09081989 075800 15.52583 -58.73250 0578.7 57941 57942 110 671 B 07051986 235959 MOR 063 Extended Core Barrel 04 085 088 PP 080.06 078.27 13.060 14.480 099.88 099.88 01.670 01.670 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1740 1687 01131989 153900 09081989 080200 15.52583 -58.73250 0581.7 58255 58258 110 671 B 07051986 235959 MOR 063 Extended Core Barrel 06 053 055 PP 064.96 21.950 096.85 03.060 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1688 MEASURED THROUGH LINER 01131989 153900 09081989 080400 15.52583 -58.73250 0584.7 58523 58525 110 671 B 07051986 235959 MOR 064 Extended Core Barrel 02 090 092 PP 080.44 082.37 13.350 11.430 099.81 099.81 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1639 1762 BLUE GRAY MUDSTONE (WEAK SIGNAL?) 01131989 154100 09081989 075800 15.52583 -58.73250 0588.2 58910 58912 110 671 B 07051986 235959 MOR 064 Extended Core Barrel 04 074 078 PP 076.01 080.47 16.500 12.690 099.81 099.81 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1590 1733 DARK GRAY LAMINATED MUDSTONE 01131989 154200 09081989 080200 15.52583 -58.73250 0591.2 59194 59198 110 671 B 07051986 235959 MOR 064 Extended Core Barrel 06 031 033 PP 079.59 078.89 13.640 13.310 099.81 099.81 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1670 1776 OLIVE GRAY HOMOGENOUS MUDSTONE 01131989 154300 09081989 080400 15.52583 -58.73250 0594.2 59451 59453 110 671 B 07051986 235959 MOR 065 Extended Core Barrel 02 051 053 PP 083.07 081.99 11.690 12.030 099.81 099.81 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1648 1697 DARK GRAY MOTTLED TO LAMINATED MUD 01131989 154400 09081989 075800 15.52583 -58.73250 0597.7 59821 59823 110 671 B 07051986 235959 MOR 065 Extended Core Barrel 04 034 036 PP 080.04 082.07 13.430 11.710 099.81 099.81 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1661 1743 DARK GRAY SILTY MUDSTONE 01131989 154400 09081989 080200 15.52583 -58.73250 0600.7 60104 60106 110 671 B 07051986 235959 MOR 065 Extended Core Barrel 06 059 061 PP 083.85 086.00 11.100 09.390 099.81 099.81 01.530 01.530 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1668 1757 DARK GRAY MUDSTONE 01131989 154500 09081989 080400 15.52583 -58.73250 0603.7 60429 60431 110 671 B 07061986 235959 WIL 066 Extended Core Barrel 04 069 071 PP 072.25 063.68 16.960 22.980 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1792 1689 01131989 154600 09081989 080200 15.52583 -58.73250 0610.2 61089 61091 110 671 B 07061986 235959 WIL 066 Extended Core Barrel 06 063 065 PP 070.87 067.46 17.540 20.830 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1814 1681 01131989 154700 09081989 080400 15.52583 -58.73250 0613.2 61383 61385 110 671 B 07061986 235959 WIL 067 Extended Core Barrel 02 031 034 PP 074.87 063.26 16.970 23.450 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1622 1672 OLIVE GREEN CHALK 01131989 154800 09081989 075800 15.52583 -58.73250 0616.7 61701 61704 110 671 B 07061986 235959 WIL 067 Extended Core Barrel 06 065 067 PP 074.23 077.94 16.110 14.540 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1761 1689 GRAY CLAYSTONE 01131989 154900 09081989 080400 15.52583 -58.73250 0622.7 62335 62337 110 671 B 07061986 235959 WIL 070 Extended Core Barrel 06 035 037 PP 070.85 066.35 17.130 20.730 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1862 1748 OLIVE GREEN CHALK 01131989 155000 09081989 080400 15.52583 -58.73250 0651.2 65155 65157 110 671 B 07061986 235959 WIL 071 Extended Core Barrel 02 070 072 PP 064.74 066.17 15.570 21.060 099.96 099.96 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 2503 1728 CHALK 01131989 155000 09081989 075800 15.52583 -58.73250 0654.7 65540 65542 110 671 B 07061986 235959 WIL 071 Extended Core Barrel 04 061 064 PP 074.58 073.00 15.020 17.160 099.97 099.97 01.500 01.500 Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface Along length of core compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1878 1722 GREEN CLAYSTONE 01131989 155100 09081989 080200 15.52583 -58.73250 0657.7 65831 65834 110 671 B 07061986 235959 WIL 072 Extended Core Barrel 02 106 108 PP 084.68 09.330 099.83 01.560 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1950 GREEN CLAYSTONE, BISCUIT 01131989 155200 09081989 075800 15.52583 -58.73250 0664.2 66526 66528 110 671 B 07061986 235959 WIL 072 Extended Core Barrel 04 077 080 PP 082.64 10.720 099.94 01.500 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1876 01131989 155300 09081989 080200 15.52583 -58.73250 0667.2 66797 66800 110 671 B 07061986 235959 WIL 072 Extended Core Barrel 06 096 099 PP 072.29 16.060 099.98 01.500 Horizontally and perpendicular to the split core surface Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) 1902 01131989 155400 09081989 080400 15.52583 -58.73250 0670.2 67116 67119 110 671 B 07061986 235959 WIL 073 Extended Core Barrel 02 062 064 PP 091.29 06.460 099.98 01.500 Along length of core Along length of core compressional (same directions of propagation and vibration) 1752 FRACTURED GREEN CLAYSTONE 01131989 155500 09081989 075800 15.52583 -58.73250 0673.7 67432 67434 110 671 B 07061986 235959 WIL 073 Extended Core Barrel 04 060 062 PP 085.38 09.780 099.98 01.500 Along length of core Along length of core compressional (same directions of propagation and vibration) 1763 CHANGE TO BROWN CLAYSTONE 01131989 155500 09081989 080200 15.52583 -58.73250 0676.7 67730 67732 110 671 B 07061986 235959 WIL 073 Extended Core Barrel 06 077 079 PP 075.62 080.89 15.330 11.370 099.98 099.98 01.500 01.500 Along length of core Horizontally and perpendicular to the split core surface Along length of core Horizontally and perpendicular to the split core surface compressional (same directions of propagation and vibration) compressional (same directions of propagation and vibration) 1761 1934 BROWN CLAYSTONE 01131989 155700 09081989 080400 15.52583 -58.73250 0679.7 68047 68049