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Depth Iteration 6 RMS error= 3.3 % <br /> M. 0.0 48.0 96.0 144 <br /> 1.6 <br /> 4.4 <br /> 8.9 <br /> 16.9 <br /> 20.7 <br /> 26.8 <br /> 34.3 <br /> Inverse Model Resistivity Section <br /> = = = = = 0 0 0 © 0 0 0 0 <br /> 30.0 47.6 76.6 120 190 302 480 762 <br /> Resistivity in ohm.m Unit electrode sr <br /> This profile was conducted along a river bank in an area where a cut bank was reportedly filled, but not <br /> compacted. <br /> As it turned out, the fill was more conductive then the native soil and the cut bank is easy to recognize. <br /> Depth Iteration 6 RMS error= 6.0 % <br /> 0.0 48.0 96.0 144 <br /> ].6 <br /> 4.4 <br /> 8.9 <br /> 16.9 <br /> 20.7 <br /> 26.8 <br /> 34.3 <br /> Inverse Model Resistivity Section <br /> = = = = = 0 = 0 = 000 = = = = <br /> 30.0 47.6 76.6 120 190 302 480 762 <br /> Resistivity in ohm.m Unit electrode sp <br /> This profile was conducted in an area of suspected concrete and rock debris. As you can see, large Bull's-eye <br /> areas of higher resistivity exist. <br /> These areas are interpreted to be buried concrete and decorative boulders and extend to depths of up to 20 <br /> meters. <br /> Some benefits to consider: <br /> • This survey work was conducted despite ongoing operations at the several properties. <br /> • These surveys can be conducted in endangered habitat sensitive areas. <br /> • No permitting is required for conducting these surveys, and therefore, can be scheduled ahead of <br /> drilling. <br /> • When conducted in conjunction with exploratory borings or test pits, it can increase the overall extent of <br /> subsurface information as well as aid in boring and test pit location. <br /> 3 <br />