13-009 New England Damage Experiment 2 Mark Leidig Weston Geophysical Corp. The original New England Damage Experiment was conducted in 2008. Phase II will answer questions raised since the completion of that experiment. The overall goal is to examine shear wave generation from explosions, but for this experiment we used TNT equivalent amounts of each explosive (Black Powder, ANFO, Comp B) instead of equal weights. We will also examine explosions in rock damaged by the 2008 explosions with 'reshoots' and the effects of depth on rock damage and shear wave generation. Shots shot id time lat lon elev (m) size (kg) depth (m) ------------------------------------------------------------------------------------- 1 2013:172:20:22:10.701 44.157940 -72.478430 507.187 68.039 12.890 2 2013:173:17:29:09.320 44.157970 -72.477910 509.016 68.022 13.500 3 2013:173:18:15:33.492 44.157760 -72.478160 508.102 73.130 12.319 4 2013:173:14:46:42.734 44.157700 -72.477950 511.454 68.558 29.032 5 2013:172:21:42:36.444 44.157510 -72.478030 506.882 68.022 13.310 6 2013:172:20:51:33.925 44.157530 -72.477650 511.150 68.022 12.802 7 2013:172:21:26:22.428 44.157540 -72.478060 514.000 1.072 13.945 8 2013:172:21:13:54.476 44.157420 -72.478090 513.000 1.072 10.592 9 2013:173:18:41:36.135 44.158000 -72.478230 508.000 1.072 13.945 Arrays Array: 001 Sample Rate: 500 sps Deployment Time: 2013:172:00:00 Pickup Time: 2013:173:23:59 Components: 1 => Z, 2 => N, 3 => E station das lat lon elev (m) component ----------------------------------------------------------------- 10001 92F3 44.133567 -72.466583 521.000 1 10001 92F3 44.133567 -72.466583 521.000 2 10001 92F3 44.133567 -72.466583 521.000 3 10002 983D 44.083417 -72.429617 467.000 1 10002 983D 44.083417 -72.429617 467.000 2 10002 983D 44.083417 -72.429617 467.000 3 10003 943F 44.058683 -72.395233 597.000 1 10003 943F 44.058683 -72.395233 597.000 2 10003 943F 44.058683 -72.395233 597.000 3 10004 9E4F 44.036783 -72.395167 544.000 1 10004 9E4F 44.036783 -72.395167 544.000 2 10004 9E4F 44.036783 -72.395167 544.000 3 10005 9D63 44.017567 -72.377817 507.000 1 10005 9D63 44.017567 -72.377817 507.000 2 10005 9D63 44.017567 -72.377817 507.000 3 10006 9E17 43.995700 -72.366033 513.000 1 10006 9E17 43.995700 -72.366033 513.000 2 10006 9E17 43.995700 -72.366033 513.000 3 10007 9DAA 43.964450 -72.336783 462.000 1 10007 9DAA 43.964450 -72.336783 462.000 2 10007 9DAA 43.964450 -72.336783 462.000 3 10008 9805 44.211720 -72.478970 337.000 1 10008 9805 44.211720 -72.478970 337.000 2 10008 9805 44.211720 -72.478970 337.000 3 10009 947C 44.201730 -72.429000 502.000 1 10009 947C 44.201730 -72.429000 502.000 2 10009 947C 44.201730 -72.429000 502.000 3 10010 92E8 44.169880 -72.411260 438.000 3 10010 92E8 44.169880 -72.411260 438.000 1 10010 92E8 44.169880 -72.411260 438.000 2 10011 9804 44.156550 -72.402980 490.000 1 10011 9804 44.156550 -72.402980 490.000 2 10011 9804 44.156550 -72.402980 490.000 3 10012 929A 44.134110 -72.409860 417.000 1 10012 929A 44.134110 -72.409860 417.000 2 10012 929A 44.134110 -72.409860 417.000 3 10013 9442 44.109500 -72.443650 477.000 1 10013 9442 44.109500 -72.443650 477.000 2 10013 9442 44.109500 -72.443650 477.000 3 10014 984D 44.097920 -72.487620 553.000 1 10014 984D 44.097920 -72.487620 553.000 2 10014 984D 44.097920 -72.487620 553.000 3 10015 92C3 44.109720 -72.520710 383.000 1 10015 92C3 44.109720 -72.520710 383.000 2 10015 92C3 44.109720 -72.520710 383.000 3 10016 92A6 44.141120 -72.545920 327.000 1 10016 92A6 44.141120 -72.545920 327.000 2 10016 92A6 44.141120 -72.545920 327.000 3 10017 9245 44.155770 -72.553120 387.000 1 10017 9245 44.155770 -72.553120 387.000 2 10017 9245 44.155770 -72.553120 387.000 3 10018 984E 44.190440 -72.544710 357.000 1 10018 984E 44.190440 -72.544710 357.000 2 10018 984E 44.190440 -72.544710 357.000 3 10019 9144 44.203530 -72.516650 220.000 1 10019 9144 44.203530 -72.516650 220.000 2 10019 9144 44.203530 -72.516650 220.000 3