Given: four points in the Euclidean plane and the distances to all but one pair of them. Find the remaining distance.
My solution attempts to be exhaustive--I consider each case individually: four collinear points, all but one point are collinear, etc.
I would really appreciate it if someone could check the example I came up with below for analyzing the troublesome case (at least for me) where no three points are collinear. Did I overlook anything?
Essentially, the law of cosines takes center stage in most of my cases. I've come up with an example which is making me rethink several of my cases. Consider the distances $|XY|=100,|ZY|=109,|XZ|=11,|WY|=75,|WZ|=136.$
I suspect I have--what I'm now calling--an ambiguous case. Since $\frac{109^2+136^2-75^2}{2(109)(136)}=\frac{109^2+11^2-100^2}{2(11)(109)}$ (law of cosines) there are congruent angles which means, to make a long story short, two segments that could coincide, taking me back to a case where there are three collinear points. Is this right or did I make a mistake along the way?
I apologize in advance if my question is unclear in any way.