yes, if it happened that they all intersected at the same point.
otherwise,three lines, assuming they are non-parallel or they do not coincide, would have at most two intersection points (one for each other line)
A line that intersects another line at exactly one point is always true; this occurs when the two lines are not parallel. In Euclidean geometry, two distinct lines can either intersect at one point or be parallel (in which case they do not intersect at all). Therefore, if a line intersects another line, it can do so at only one point.
It's possible, but for any three lines in the same plane, there could be ether one point of intersection (unlikely) or three (more probably).
A tangent line.
It is a tangent line
It is a tangent line
No, only three lines can intersect at a single point.
A line that intersects another line at exactly one point is always true; this occurs when the two lines are not parallel. In Euclidean geometry, two distinct lines can either intersect at one point or be parallel (in which case they do not intersect at all). Therefore, if a line intersects another line, it can do so at only one point.
It's possible, but for any three lines in the same plane, there could be ether one point of intersection (unlikely) or three (more probably).
A tangent.
It is a tangent.
A tangent line.
It is a tangent line
It is called a tangent.
It is a tangent line
That is a tangent line.
Any number of lines can intersect all at the same point. Think of a circle. Now think of all of its diameters.
Assuming that the none of the lines are parallel, they can intersect (pairwise) at three points. Otherwise, the question is tautological.