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$\begingroup$

enter image description here

It's given distance between

  • $AB = 27$
  • $BC = 752$
  • $CD = 26.75$
  • $AD = 758$
  • $CE = 1$
  • $0 < FC < 752$

How do I find $FG = x$ for point $F$ on line $BC$? Is it even possible?

EDIT:

As André mentioned in comments, just by defining lengths doesn't make the structure "rigid" to calculate x.

What if we define $90 < \angle C < 120$, does this makes approximate result possible?

  • 0
    None of your givens say where F is located. Or do the marks mean that BF=FC (it doesn't look even close to equal in the diagram)?2012-11-27
  • 1
    Also in the diagram, CD appears longer than AB. The way the diagram is actually labelled it looks like it should be ED which is of length 26.75, rather than the whole side CD as you write in your listed assummptions.2012-11-27
  • 0
    F is some point between B and C. I want to find distances from BC to AE. 0 < FG < 752. AB is a bit longer than CD, so CD should appear longer than AB, drawing mistake. There are no other special marks on BC, ignore those. I'll try to redraw cleanly if it helps.2012-11-27
  • 0
    Maybe you should define say a variable $y=BF$ where $0, and say in your question that you seek a formula for $x$ in terms of $y$. At least that would have been clearer to me...2012-11-27
  • 3
    It is a good picture, not to scale but who cares? The issue I see is that the quadrilateral is not *rigid*. If you make the sides of the given lengths, out of thin rigid steel rods, but put some hinges at the corners, the structure will have some wiggle. Looks to me as if even if we know $FC$, the distance labelled $x$ is not fully determined.2012-11-27
  • 0
    I've updated the picture to match real situation more closely. Maybe we can define $90 < \angle C < 120$, make quadrilateral rigid to some extent and get approximate solution?2012-11-27
  • 0
    I agree with André, the thing is far from rigid. It has a whole continuum of possible shapes. You could compute $x$ from $FC$ and $\angle C$, e.g. using explicit coordinates based on these two variables.2012-11-28

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