In this puzzle, surface means the surface on the 1*1*2 cube as shown below in blue color. 

Point means any point on the surface and not only the integer nodes.

Distance means the shortest way by connecting two points by string on the surface. 

Thanks. Sorry my explanation is poor.
Start point is fixed to [0,0,0]. End point is not fixed to [1,1,2] but any point on the surface. So, find the most far point on the surface from [0,0,0].

The surface distance from [0,0,0] to [1,1,2] is "the shortest way" on the surface and it is 2*sqrt(2).  

(The surface distance from [0,0,0] to [1,1,1] is "the shortest way" on the surface and it is sqrt(5).)

Tokoro.

So the surface distance from (0;0;0) to (1;0.8;2) is 1/5*sqrt(221)=2.973...  ?

Thanks. Using Deployment Diagram, your case is

Therefore, the surface distance from [0,0,0] to Point [1,0.8,2] is shorter than 2*sqrt(2). 

Yes, you are of course right!

Then, the last question is what is the largest surface distance  on a 1 x 1 x 2 cuboid?

It means we need two points on the surface and the distance is larger than above result.

Hmm, I don't see a proof in your picture. Actually I am nor sure what you ar showing at all.

It looks like you are already assuming  that for the solution it must be x=y. Why?

Then in your "deployment diagram" yo seem to consider only two ways a distance could be measured, but actually there are four.

You also seem to assume that for the largest distance these two paths have to be of equal length. While that is true (I had shown that even four different paths are of equal, maximal length) I wonder what justifies to assume that from the very beginning.

And then I don't see the meaning of your x:=2 y:=3 z=0 and Z:=3

Original 1*1*2 cuboid has symmetrical plane, [0,0,0]-[0,0,2]-[1,1,2]-[1,1,0]. So, your 4 answers are right and as same as my results.

My reply's x:=2 y:=3 z=0 and Z:=3 means nothing. It only makes a plot of blue grid circuit for 2D 2*3 and shows two answers in red line.

Therefore, my equations only for cuboid with symmetrical plane. And for 3*4*5 cuboid, I have an answer but not sure it is true or not. 1*1*n cuboid's answer is already on the mathematics Web site. First thinking is may [0,0,0] to [1,1,2] be the largest distance. So, this is good puzzle to solve by Mathcad.

Tokoro.     

IMHO the symmetry you mention does not necessarily mean that the point with the largest surface distance must lie in that symmetry plane. There could be two (or more points with the same largest distance which lie symmetrical to x=y.  It is not the case in the task, but I see no compelling reason that it could not be that way. OK, there could be a compelling argument (which would then have to be formulated) that in that case there must necessarily be a point in the symmetry plane that has an even greater distance.

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1*1*n cuboid's answer is already on the mathematics Web site.

??? Which web site?

According the 3*4*5 cube and the point with the largest distance from (0;0;0), here is what my sheet says:

Looks, like that in this case the opposite corner (3;4;5) actually is the solution

小谷の蟻の問題 - Wikipedia

From the opposite corner (3;4;5) down 1/3 of y axis, therefore, (3,4-1/3,5) is my answer.

Please check the surface distance of from [0,0,0] to [3,11/3,5]

This is what I get

compared to

Thanks. I only measure it from front side. But back side shows your result is the answer.

The final answer of 1*1*2 cuboid is

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The final answer of 1*1*2 cuboid is

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? I guess that you are talking now about the pair of points with the largest geodesic distance possible?
I haven't dealt with that problem so far, but its clear that the distance must be larger than 3.

I see you are assuming the solution in the symmetry plane and you also assume that A(x;x,0) and B(1-x; 1-x; 2) with x is the expression you give in Ans ?

Yes, you are right. Plane symmetrical surface distance is solved for any 1*1*n cuboid.

My original 3*4*5 cuboid puzzle is point symmetrical and it means [0,0,0] and [3,4,5] are the symmetrical positions of most far each other.

I attached 1*1*n answer by Mathcad Prime 8.