After the split, notice the first row, OBJECTID 2, remains and its geometry and OBJECTID attribute value have been updated. This shows that OBJECTID 2 contains the largest feature after the split, and the smaller feature has been inserted as a new row in the table with an OBJECTID of ...
After the split, notice the first row, OBJECTID 2, remains and its geometry and OBJECTID attribute value have been updated. This shows that OBJECTID 2 contains the largest feature after the split, and the smaller feature has been inserted as a new row in the table with an OBJECTID of...
After the split, notice the first row, OBJECTID 2, remains and its geometry and OBJECTID attribute value have been updated. This shows that OBJECTID 2 contains the largest feature after the split, and the smaller feature has been inserted as a new row in the table with an OBJECTID of ...
After the split, notice the first row, OBJECTID 2, remains and its geometry and OBJECTID attribute value have been updated. This shows that OBJECTID 2 contains the largest feature after the split, and the smaller feature has been inserted as a new row in the table with an OBJECTID of ...
After the split, notice the first row, OBJECTID 2, remains and its geometry and OBJECTID attribute value have been updated. This shows that OBJECTID 2 contains the largest feature after the split, and the smaller feature has been inserted as a new row in the table with an OBJECTID of ...
After the split, notice the first row, OBJECTID 2, remains and its geometry and OBJECTID attribute value have been updated. This shows that OBJECTID 2 contains the largest feature after the split, and the smaller feature has been inserted as a new row in the table with an OBJECTID of ...
a field namedAREA, the database, schema, and feature class name are prepended to it. This is the name you will see in the attribute table of the feature class. That means for a polygon feature class namedARCHSITESstored in thePROFschema of theMUSEUMdatabase, theAREAfield looks like this...