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Author name: Rakesh Rao

Flip Dip Direction: GEOL_FLIPDIPDIRECTION – GeoTools Command

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Summary The GEOL_FLIPDIPDIRECTION command in GeoTools allows users to flip the dip direction of a geological plane, making it an essential tool for geologists, mining engineers, and geotechnical professionals. This feature is particularly useful for correcting dip orientation, refining structural models, and ensuring accurate geological analysis. GeoTool -> Geological/Mining Tools -> Dimensional Stone -> Flip Dip Direction Key Features Include: Benefits: With GEOL_FLIPDIPDIRECTION, users can efficiently correct and refine geological models, ensuring precision in geological mapping and engineering workflows.

Change Dip Angle: GEOL_CHANGEDIPANGLE – GeoTools Command

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Summary The GEOL_CHANGEDIPANGLE command in GeoTools allows users to adjust the dip angle of a geological plane, making it an essential tool for geologists, mining engineers, and geotechnical professionals. This feature helps in terrain modeling, structural geology analysis, and subsurface investigations, ensuring accurate representation of faults, rock layers, and inclined surfaces. GeoTool -> Geological/Mining Tools -> Dimensional Stone -> Change Dip Angle Key Features Include: Benefits: With GEOL_CHANGEDIPANGLE, users can efficiently modify geological plane orientations, ensuring precise geological modeling and enhanced subsurface analysis for engineering and earth science projects.

Place Dip/Strike Symbols: GEOL_PLACEDIPSTRIKESYMBOL – GeoTools Command

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Summary The GEOL_PLACEDIPSTRIKESYMBOL command in GeoTools allows users to place dip and strike symbols for geological mapping and analysis. This tool is essential for structural geologists, mining engineers, and GIS professionals working in BricsCAD, AutoCAD, ZWCAD and ARES Commander. GeoTool -> Geological/Mining Tools -> Dimensional Stone -> Place dip/strike symbols Key Features Include: Benefits: With GEOL_3POINT, users can efficiently analyze geological formations, ensuring accurate orientation measurements for geospatial and engineering applications.

Draw Rose Diagram/Stereonet: GEOL_ROSEDIAGRAM – GeoTools Command

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Summary The GEOL_ROSEDIAGRAM command in GeoTools enables users to create Rose Diagrams and Stereonets for analyzing dip-strike orientations, making it an essential tool for structural geologists, geotechnical engineers, and GIS professionals in BricsCAD, AutoCAD, ZWCAD and ARES Commander. GeoTool -> Geological/Mining Tools -> Dimensional Stone -> Draw Rose Diagram/Stereonet Key Features Include: Benefits: This tool is highly useful for structural geology, fault analysis, and directional data representation, allowing users to visualize geological trends effectively for interpretation and decision-making.

Specify and Plan Mining Lease Area Data: GEOL_LEASEAREAPLANNER – GeoTools Command

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Summary The GEOL_LEASEAREAPLANNER command in GeoTools is designed for planning and managing mining lease areas, enabling precise specification of lease boundaries, feature classes, and control points. This tool is essential for mining engineers, land surveyors, and GIS professionals working in BricsCAD, AutoCAD, ZWCAD and ARES Commander. GeoTool -> Geological/Mining Tools -> General -> Specify and plan mining lease area data Key Features Include: Benefits: This tool is particularly useful for mine planning, regulatory approvals, and lease documentation, ensuring compliance with industry standards and mapping accuracy.

Draw Lease Area Map Elements: GEOL_LEASEAREADRAW – GeoTools Command

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Summary The GEOL_LEASEAREADRAW command in GeoTools enables users to create mining lease area maps by drawing key feature classes such as lease boundaries, land classifications, and infrastructure elements. This command is essential for mine planning, land management, and environmental compliance in BricsCAD, AutoCAD, ZWCAD and ARES Commander. GeoTool -> Geological/Mining Tools -> General -> Draw Lease Area Map Elements Key Features Include: Benefits: This tool is particularly useful for mine surveyors, environmental planners, and GIS professionals requiring detailed mining lease area maps for planning and documentation.

Import (read) a MINEX Coal Reserves Data File: GEOL_Minex2Dwg – GeoTools Command

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Summary The GEOL_Minex2Dwg command in GeoTools enables users to import MINEX coal reserves data into CAD platforms, making it an essential tool for mining engineers, geologists, and resource planners using BricsCAD, AutoCAD, ZWCAD, and ARES Commander. GeoTool -> Geological/Mining Tools -> General -> Import (read) a MINEX coal reserves data file Key Features Include: Benefits: This tool is particularly useful for mine planning, reserve estimation, and geological mapping, ensuring a smooth transition from MINEX data to CAD-based spatial analysis.

Mining Symbols: GEOL_MININGSYMBOLS – GeoTools Command

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Summary The GEOL_MININGSYMBOLS command in GeoTools provides a structured approach to browsing, inserting, and managing mining-related symbols, making it a valuable tool for mining engineers, geologists, and CAD professionals working in BricsCAD, AutoCAD, ZWCAD and ARES Commander. GeoTool -> Geological/Mining Tools -> General -> Strike-Dip Calculator (3 point solution) Key Features Include: Benefits: This tool is ideal for mine planning, geological mapping, and industrial CAD applications, offering an efficient way to insert standardized mining symbols into drawings.

Strike-Dip Calculator (3 point solution): GEOL_3POINT – GeoTools Command

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Summary The GEOL_3POINT command in GeoTools provides a 3-point solution for calculating the strike and dip of a geological plane, making it an essential tool for geologists, geotechnical engineers, and mining professionals. By selecting three known points on a surface, the command determines the orientation of the plane, helping in structural geology analysis and terrain assessment. GeoTool -> Geological/Mining Tools -> General -> Strike-Dip Calculator (3 point solution) Key Features Include: Benefits: With GEOL_3POINT, users can efficiently analyze geological formations, ensuring accurate orientation measurements for geospatial and engineering applications.

Fault Shift: GEOL_FAULTSHIFT – GeoTools Command

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Summary The GEOL_FAULTSHIFT command in GeoTools allows users to simulate fault shifts, representing geological displacements caused by tectonic movements. This tool is essential for geologists, civil engineers, and structural analysts working on fault modeling, seismic studies, and land stability assessments. GeoTool -> Geological/Mining Tools -> General -> Fault Shift Key Features Include: Benefits: With GEOL_FAULTSHIFT, users can model geological displacements accurately, aiding in seismic hazard assessment, foundation design, and structural planning in geotechnical and civil engineering projects.

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