position of the point on the given edge.
\image html point3.png
-Alternatively, it is possible to define 3D coordinates of the point
+Alternatively, it is possible to define the point by \b Edge and \b Length,
+the given length must not exceed the length of the edge. The orientation of the edge can be reversed.
+\n <b>TUI Command:</b> <em>geompy.MakeVertexOnCurveByLength(Edge,Length,Reverse).</em>
+\n <b>Arguments:</b> Name + 1 edge + 1 Length defining the
+position of the point on the given edge + 1 Reverse flag defining the direction for the
+calculation of the length (False = forward, True = reversed).
+\image html point3_3.png
+
+It is also possible to define 3D coordinates of the point
projected on the given edge to produce the resulting point.
\n <b>TUI Command:</b> <em>geompy.MakeVertexOnCurveByCoord(Edge,X,Y,Z).</em>
\n <b>Arguments:</b> Name + 1 edge + 3 coordinate values of the
projected point.
\image html point3_2.png
-\n Fourthly, we can define a point by intersection of two \b Lines.
-\n <b>TUI Command:</b> <em>geompy.MakePointOnLinesIntersection(myLine1,myLine2).</em>
-\n <b>Arguments:</b> Name + 2 lines
+\n Fourthly, we can define a point(s) by intersection of two \b Lines or \b Wires (or a Wire and a Line).
+If they intersect only once, a point will be created. If there are several intersections, a compound of
+points will be created. The type of the selected object (Line or Wire) can be changed in the popup menu,
+after clicking the corresponding selection button. (see the picture below)
+\n <b>TUI Command:</b> <em>geompy.MakePointOnLinesIntersection(myLine1,myWire1).</em>
+\n <b>Arguments:</b> Name + 2 1D objects
\image html point4.png
