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
111	504	B	09061986 235959	LOV	142	Rotary	01	006	008	PPW			    	021.80	025.25	025.25				05.521	06.360	06.130				000.00	000.00	000.00				01.770	01.770	01.770				Horizontally and perpendicular to the split core surface	Horizontally and parallel to the split core surface	Along length of core				Horizontally and perpendicular to the split core surface	Horizontally and parallel to the split core surface	Along length of core				compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)				5812	5501	5791				WET MINICORE		12221988 091900	09081989 075600	1.22685	-83.73030	1352.8	135286	135288
111	504	B	09111986 235959	LOV	142	Rotary	01	006	008	PPD			    	021.84	025.25	025.25	025.25	025.25	021.84	06.050	06.290	06.390	06.290	06.390	06.050	000.00	000.00	000.00	000.00	000.00	000.00	01.630	01.630	01.630	01.770	01.770	01.770	Horizontally and perpendicular to the split core surface	Along length of core	Horizontally and parallel 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	Horizontally and perpendicular to the split core surface	Along length of core	Horizontally and parallel 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	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	4941	5418	5305	5586	5465	5103	TESTS ON DRY MINICORE		01171989 155400	09081989 075700	1.22685	-83.73030	1352.8	135286	135288
111	504	B	09061986 235959	LOV	142	Rotary	01	006	008	PP			    	021.80	025.25	025.25	025.25			05.521	05.969	06.130	06.360			000.00	000.00	000.00	000.00			01.636	01.636	01.620	01.620			Horizontally and perpendicular to the split core surface	Along length of core	Along length of core	Horizontally and parallel to the split core surface			Horizontally and perpendicular to the split core surface	Along length of core	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)	compressional (same directions of propagation and vibration)			5611	5827	5599	5327			DIRECTION A GIVEN AS A/B (HORIZONTAL) FOR FIRST TEST		01181989 091400	09081989 075700	1.22685	-83.73030	1352.8	135286	135288
111	504	B	09071986 235959	LOV	142	Rotary	02	057	059	PP			    	025.25	025.25					06.160	06.170					000.00	000.00					01.620	01.620					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)					5562	5549					POSSIBLY USED A BLADE TRANSDUCER INSTEAD, NOT CLEAR FROM PAPER FORM		12221988 092500	09081989 075800	1.22685	-83.73030	1354.3	135487	135489
111	504	B	09161986 235959	LOV	142	Rotary	02	057	059	PPD			    	025.26	025.24	018.09	025.26	025.24	018.09	06.280	06.040	04.660	06.280	06.040	04.660	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5601	5911	6260	5601	5911	6260	TESTS ON DRY MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01181989 085400	09081989 075800	1.22685	-83.73030	1354.3	135487	135489
111	504	B	09061986 235959	LOV	142	Rotary	02	065	067	PPW			    	025.25	025.25	018.00				06.160	06.170	04.580				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5752	5739	6406				WET MINICORE		12221988 092000	09081989 075800	1.22685	-83.73030	1354.3	135495	135497
111	504	B	09061986 235959	LOV	142	Rotary	02	065	067	PP			    	018.00	025.25					04.584	06.005					000.00	000.00					01.660	01.660					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)					6156	5811					DIRECTION A GIVEN AS A/B (HORIZONTAL)		01181989 090900	09081989 075800	1.22685	-83.73030	1354.3	135495	135497
111	504	B	09061986 235959	LOV	143	Rotary	01	105	107	PPW			    	025.25	025.25	019.31				06.110	05.970	04.870				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5818	6012	6229				WET MINICORE		12221988 092200	09081989 075600	1.22685	-83.73030	1359.3	136035	136037
111	504	B	09121986 235959	LOV	143	Rotary	01	105	107	PPD			    	025.30	025.24	019.17	025.30	025.24	019.17	06.450	06.490	05.360	06.450	06.490	05.360	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.620	01.620	01.620	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5406	5347	5340	5238	5183	5126	TESTS ON DRY MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 160300	09081989 075700	1.22685	-83.73030	1359.3	136035	136037
111	504	B	09071986 235959	LOV	143	Rotary	01	105	107	PP			    	025.25	025.25	019.31	025.25			06.110	05.970	04.874	06.108			000.00	000.00	000.00	000.00			01.620	01.620	01.662	01.662			Along length of core	Horizontally and parallel to the split core surface	Horizontally and perpendicular to the split core surface	Along length of core			Along length of core	Horizontally and parallel to the split core surface	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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)			5624	5805	6012	5679			DIRECTION A GIVEN AS A/B (HORIZONTAL) WHEN TESTED W/ BLADE TRANSDUCER		01181989 091300	09081989 075700	1.22685	-83.73030	1359.3	136035	136037
111	504	B	09061986 235959	LOV	144	Rotary	01	089	091	PPW			    	025.37	025.39	020.50				06.040	06.200	05.030				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5941	5731	6288				WET MINICORE		12221988 092300	09081989 075600	1.22685	-83.73030	1368.7	136958	136960
111	504	B	09071986 235959	LOV	144	Rotary	01	089	091	PP			    	025.37	025.39	020.50				06.040	06.200	05.030				000.00	000.00	000.00				01.620	01.620	01.620				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	Horizontally and perpendicular 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)				5740	5544	6012				MAY HAVE USED BLADE TRANSDUCER INSTEAD, NOT CLEAR FROM PAPER FORM		12221988 092600	09081989 075600	1.22685	-83.73030	1368.7	136958	136960
111	504	B	09131986 235959	LOV	144	Rotary	01	089	091	PPD			    	025.26	020.20	025.26	020.20			05.970	05.560	05.970	05.560			000.00	000.00	000.00	000.00			01.770	01.770	01.770	01.770			Along length of core	Horizontally and perpendicular to the split core surface	Along length of core	Horizontally and perpendicular to the split core surface			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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)			6014	5330	6014	5330			DRY MINICORE, ZERO TIME CALCULATED & ASSUMED FOR SECOND TESTS		01171989 161300	09081989 075700	1.22685	-83.73030	1368.7	136958	136960
111	504	B	09081986 235959	LOV	145	Rotary	01	095	097	PPW			    	025.26	025.26	019.63	025.26	025.26	019.63	05.960	05.990	04.960	05.960	05.990	04.960	000.00	000.00	000.00	000.00	000.00	000.00	01.610	01.610	01.610	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5807	5767	5860	6029	5986	6154	WET MINICORE		01171989 154100	09081989 075700	1.22685	-83.73030	1378.3	137925	137927
111	504	B	09121986 235959	LOV	145	Rotary	01	095	097	PPD			    	025.26	025.28	019.75	025.26	025.28	019.75	06.570	06.290	05.660	06.570	06.290	05.660	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.620	01.620	01.620	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5263	5593	5077	5103	5413	4889	TESTS ON DRY MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 160200	09081989 075700	1.22685	-83.73030	1378.3	137925	137927
111	504	B	09081986 235959	LOV	145	Rotary	02	123	125	PPW			    	025.28	025.28	019.83	025.28	025.28	019.83	05.980	05.960	04.930	05.980	05.960	04.930	000.00	000.00	000.00	000.00	000.00	000.00	01.610	01.610	01.610	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5785	5811	5973	6005	6033	6275	WET MINICORE		01171989 154200	09081989 075800	1.22685	-83.73030	1379.8	138103	138105
111	504	B	09131986 235959	LOV	145	Rotary	02	123	125	PPD			24.0	025.33	025.35	019.79	025.33	025.35	019.79	06.370	06.450	05.590	06.370	06.450	05.590	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5507	5417	5181	5507	5417	5181	DRY MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 170400	09081989 075800	1.22685	-83.73030	1379.8	138103	138105
111	504	B	09081986 235959	LOV	145	Rotary	03	044	046	PPW			    	025.27	025.27	019.93	025.27	025.27	019.93	06.050	06.040	05.030	06.050	06.040	05.030	000.00	000.00	000.00	000.00	000.00	000.00	01.610	01.610	01.610	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5691	5704	5827	5904	5918	6113	WET MINICORE		01171989 154400	09081989 080100	1.22685	-83.73030	1381.3	138174	138176
111	504	B	09131986 235959	LOV	145	Rotary	03	044	046	PPD			    	025.26	025.28	019.88	025.26	025.28	019.88	06.220	06.280	05.640	06.220	06.280	05.640	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5676	5605	5137	5676	5605	5137	TESTS ON DRY MINICORE, ZERO TIME CALCULATED & ASSUMED FOR SECOND TESTS		01171989 161100	09081989 080100	1.22685	-83.73030	1381.3	138174	138176
111	504	B	09081986 235959	LOV	147	Rotary	01	039	041	PPW			    	025.27	025.29	021.71				06.220	06.020	05.290				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5679	5951	6168				ZERO TIME CALCULATED FROM REST OF DATA (NOT GIVEN ON PAPER FORM)		12221988 094500	09081989 075600	1.22685	-83.73030	1397.4	139779	139781
111	504	B	09081986 235959	LOV	147	Rotary	01	039	041	PP			    	025.27	025.29	021.71				06.220	06.020	05.290				000.00	000.00	000.00				01.640	01.640	01.640				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	Horizontally and perpendicular 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)				5517	5774	5948						12221988 095000	09081989 075600	1.22685	-83.73030	1397.4	139779	139781
111	504	B	09131986 235959	LOV	147	Rotary	01	039	041	PPD			    	025.32	025.29	021.61	025.32	025.29	021.61	06.890	06.730	05.890	06.890	06.730	05.890	000.00	000.00	000.00	000.00	000.00	000.00	01.630	01.630	01.630	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	4814	4959	5073	4945	5099	5245	TESTS ON DRY MINICORE		01171989 160400	09081989 075700	1.22685	-83.73030	1397.4	139779	139781
111	504	B	09081986 235959	LOV	147	Rotary	02	044	046	PP			    	025.27	025.27	019.71				05.980	05.940	04.870				000.00	000.00	000.00				01.640	01.640	01.640				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	Horizontally and perpendicular 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)				5823	5877	6102						12221988 095100	09081989 075800	1.22685	-83.73030	1398.5	139898	139900
111	504	B	09081986 235959	LOV	147	Rotary	02	044	046	PPW			    	025.27	025.27	019.71				05.980	05.940	04.870				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				6002	6060	6358				ZERO TIME CALCULATED FROM REST OF DATA		01171989 154700	09081989 075800	1.22685	-83.73030	1398.5	139898	139900
111	504	B	09161986 235959	LOV	147	Rotary	02	044	046	PPD			    	025.36	025.31	019.77	025.36	025.31	019.77	06.540	06.520	05.660	06.540	06.520	05.560	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5317	5328	5082	5317	5328	5216	ZERO TIME CALCULATED FROM REST OF DATA, TESTS ON DRY MINICORE		01181989 085000	09081989 075800	1.22685	-83.73030	1398.5	139898	139900
111	504	B	09081986 235959	LOV	148	Rotary	01	068	070	PP			    	025.24	025.24	024.49				05.800	05.890	05.820				000.00	000.00	000.00				01.640	01.640	01.640				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	Horizontally and perpendicular 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)				6067	5939	5859						12221988 095200	09081989 075600	1.22685	-83.73030	1406.8	140748	140750
111	504	B	09081986 235959	LOV	148	Rotary	01	068	070	PPW			    	025.24	025.24	024.49				05.800	05.890	05.820				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				6263	6126	6047				TESTS ON WET MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		12221988 100700	09081989 075600	1.22685	-83.73030	1406.8	140748	140750
111	504	B	09131986 235959	LOV	148	Rotary	01	068	070	PPD			    	025.23	025.24	024.94	025.23	025.24	024.94	06.470	06.690	06.700	06.470	06.690	06.700	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5368	5130	5059	5368	5130	5059	TESTS ON DRY MINICORE, ZERO TIME CALCULATED & ASSUMED FOR SECOND TESTS		01171989 160900	09081989 075700	1.22685	-83.73030	1406.8	140748	140750
111	504	B	09081986 235959	LOV	149	Rotary	01	082	084	PPW			    	025.24	025.27	024.10	025.24	025.27	024.10	05.950	05.760	05.530	05.950	05.760	05.530	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.620	01.620	01.620	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	6038	6333	6410	5829	6104	6164	TESTS ON WET MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 154900	09081989 075700	1.22685	-83.73030	1416.9	141772	141774
111	504	B	09121986 235959	LOV	149	Rotary	01	082	084	PPD			    	025.25	025.28	024.10	025.25	025.28	024.10	06.630	06.660	06.240	06.630	06.660	06.240	000.00	000.00	000.00	000.00	000.00	000.00	01.620	01.620	01.620	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5040	5016	5216	5195	5170	5391	TESTS ON DRY MINICORE		01171989 155900	09081989 075700	1.22685	-83.73030	1416.9	141772	141774
111	504	B	09081986 235959	LOV	150	Rotary	01	113	115	PPW			    	025.28	025.29	020.43	025.28	025.29	020.43	06.160	05.890	05.170	06.160	05.890	05.170	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.620	01.620	01.620	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5759	6138	6009	5568	5923	5755	TESTS ON WET MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 155100	09081989 075700	1.22685	-83.73030	1426.4	142753	142755
111	504	B	09121986 235959	LOV	150	Rotary	01	113	115	PPD			    	025.30	025.29	020.43	025.30	025.29	020.43	06.440	06.290	05.410	06.440	06.290	05.410	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.630	01.630	01.630	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5418	5595	5613	5260	5427	5405	TESTS ON DRY MINICORE, ZERO TIME CALCULATED FRAM REST OF DATA		01171989 160000	09081989 075700	1.22685	-83.73030	1426.4	142753	142755
111	504	B	09111986 235959	LOV	152	Rotary	01	123	126	PPW			    	025.28	025.07	025.28	025.07	022.44	022.44	06.150	06.180	06.150	06.180	05.290	05.290	000.00	000.00	000.00	000.00	000.00	000.00	01.630	01.630	01.770	01.770	01.770	01.630	Along length of core	Horizontally and parallel 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	Horizontally and perpendicular to the split core surface	Along length of core	Horizontally and parallel 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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5593	5510	5772	5685	6375	6131	TESTS ON WET MINICORE, ZERO TIME 1.77 CALCULATED FROM REST OF DATA		01171989 155500	09081989 075700	1.22685	-83.73030	1435.9	143713	143716
111	504	B	09131986 235959	LOV	152	Rotary	01	123	126	PPD			24.0	025.29	022.45	025.29	022.45			06.040	05.590	06.040	05.590			000.00	000.00	000.00	000.00			01.770	01.770	01.770	01.770			Along length of core	Horizontally and perpendicular to the split core surface	Along length of core	Horizontally and perpendicular to the split core surface			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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)			5923	5877	5923	5877			DRY MINICORE, ZERO TIME CALCULATED FROM DATA, NO B DIRECTION		01181989 085800	09081989 075700	1.22685	-83.73030	1435.9	143713	143716
111	504	B	09111986 235959	LOV	154	Rotary	01	064	066	PPW			    	025.24	025.27	021.71	025.24	025.27	021.71	05.900	05.880	05.350	05.900	05.880	05.350	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.630	01.630	01.630	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	6111	6148	6064	5911	5946	5836	TESTS ON WET MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 155700	09081989 075700	1.22685	-83.73030	1454.3	145494	145496
111	504	B	09131986 235959	LOV	154	Rotary	01	064	066	PPD			    	025.28	025.30	025.28	025.30	021.73	021.73	06.940	06.900	06.940	06.900	05.840	05.840	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	Along length of core	Horizontally and parallel 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	Horizontally and perpendicular to the split core surface	Along length of core	Horizontally and parallel 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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	4890	4932	4890	4932	5339	5339	TESTS ON DRY MINICORE		01171989 161600	09081989 075700	1.22685	-83.73030	1454.3	145494	145496
111	504	B	09111986 235959	LOV	155	Rotary	01	043	045	PPW			    	025.27	025.27	020.95	025.27	025.27	020.95	05.900	05.920	05.180	05.900	05.920	05.180	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.630	01.630	01.630	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	6119	6089	6144	5918	5890	5901	TESTS ON WET MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 155800	09081989 075700	1.22685	-83.73030	1459.0	145943	145945
111	504	B	09161986 235959	LOV	155	Rotary	01	043	045	PPD			    	025.27	025.26	020.90	025.27	025.26	020.90	06.960	06.750	06.030	06.560	06.350	05.530	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	4869	5072	4906	5276	5515	5559	TESTS ON DRY MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01171989 161800	09081989 075700	1.22685	-83.73030	1459.0	145943	145945
111	504	B	09161986 235959	LOV	161	Rotary	01	004	006	PPD			    	025.27	025.27	021.04				06.710	06.690	05.650				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5115	5136	5423				TESTS ON DRY MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		12221988 100200	09081989 075600	1.22685	-83.73030	1504.1	150413	150415
111	504	B	09131986 235959	LOV	161	Rotary	01	004	006	PPW			    	025.26	025.26	021.04	025.26	025.26	021.04	06.120	06.100	05.290	06.120	06.100	05.290	000.00	000.00	000.00	000.00	000.00	000.00	01.770	01.770	01.770	01.770	01.770	01.770	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	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	Horizontally and perpendicular 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)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)	5807	5834	5977	5807	5834	5977	WET MINICORE, ZERO TIME CALCULATED FROM REST OF DATA		01181989 090300	09081989 075700	1.22685	-83.73030	1504.1	150413	150415
111	504	B	09131986 235959	LOV	161	Rotary	01	012	019	PPW	002		    	078.74	078.74					14.520	14.520					000.00	000.00					01.770	01.770					Along length of core	Along length of core					Along length of core	Along length of core					compressional (same directions of propagation and vibration)	compressional (same directions of propagation and vibration)					6176	6176					WHOLE CORE WET, PARALLEL ENDS, ZERO TIME CALCULATED FROM REST OF DATA		01181989 090200	09081989 075700	1.22685	-83.73030	1504.1	150421	150428
111	504	B	09231986 235959	LOV	163	Rotary	01	043	045	PPW			    	025.25	025.25	020.40				06.010	05.980	05.110				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5955	5998	6108				WET MINICORE, ZERO TIME CALCULATED, TRANSDUCER ASSUMED TO BE FRAME		12221988 131400	09081989 075600	1.22685	-83.73030	1511.6	151202	151204
111	504	B	09261986 235959	LOV	163	Rotary	01	043	045	PP			    	025.25	025.38	020.54				06.150	06.050	05.170				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5765	5930	6041						02011989 134000	09081989 075700	1.22685	-83.73030	1511.6	151202	151204
111	504	B	09231986 235959	LOV	163	Rotary	02	017	019	PPW			    	025.26	025.27	018.16				05.900	05.930	04.640				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				6116	6075	6328				WET MINICORE, ZERO TIME CALCULATED, TRANSDUCER ASSUMED TO BE FRAME		12221988 131600	09081989 075800	1.22685	-83.73030	1513.1	151326	151328
111	504	B	09261986 235959	LOV	163	Rotary	02	017	019	PP			    	025.29	025.28	018.12				06.160	06.190	04.950				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5761	5719	5698				ZERO TIME CALCULATED FROM REST OF DATA		02011989 134700	09081989 075900	1.22685	-83.73030	1513.1	151326	151328
111	504	B	09231986 235959	LOV	164	Rotary	01	007	009	PPW			    	025.31	025.30	021.35				05.850	06.020	05.140				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				6203	5953	6335				WET MINICORE, ZERO TIME CALCULATED, TRANSDUCER ASSUMED TO BE FRAME		12221988 131800	09081989 075600	1.22685	-83.73030	1515.1	151516	151518
111	504	B	09261986 235959	LOV	164	Rotary	01	007	009	PP			    	025.40	025.42	021.55				05.770	05.750	05.370				000.00	000.00	000.00				01.350	01.370	01.710				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	Horizontally and perpendicular 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)				5747	5804	5888				ZERO TIMES CALCULATED FROM REST OF DATA		12221988 132800	09081989 075600	1.22685	-83.73030	1515.1	151516	151518
111	504	B	10141986 235959	MOR	169	Rotary	01	066	068	PPW			    	025.28	025.28	019.37				06.052	06.110	04.995				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5904	5825	6006				WET MINICORE, ZERO TIME CALCULATED, TRANSDUCER ASSUMED TO BE FRAME		02011989 140100	09081989 075700	1.22685	-83.73030	1547.6	154825	154827
111	504	B	10141986 235959	MOR	169	Rotary	01	066	068	PPD			    	025.28	025.28	019.37				06.440	06.490	05.212				000.00	000.00	000.00				01.770	01.770	01.770				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	Horizontally and perpendicular 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)				5413	5356	5628				DRY MINICORE, ZERO TIME CALCULATED, TRANSDUCER ASSUMED TO BE FRAME		02011989 140200	09081989 075700	1.22685	-83.73030	1547.6	154825	154827