Asked by Jerry

Draw the triangles. Recall that the sides are in the ratio 1:√3:2

Label the longest hypotenuse, and then work down to get the desired leg's size.

I get 6.

I am assuming there are only two triangles.

You should know the ratio of sides of your triangle to be:
1 : √3 : 2 or
x : √3x : 2x, where x is a constant

so in the next one:

a : 2x : c

then c/2x = 2x/√3x
√3 cx = 4x^2
c = 4x/√3

a/x = 2x/√3x
a = 2x/√3

general triangle: (2x/√3) : 2x : (4x/√3)

check: is a^2 + b^2 = c^2
LS = 4x^2/3 + 4x^2 = 16x^2/3
RS = (14x/√3)^2 = 16x^2/3
YES

so if 4x/√3 = 8
x = 2√3
our largest triangle is 4 : 4√3 : 8

our hypotenuse increased from 2 to 8, that is by a factor of 4, so to get to our smallest triangle largest leg we have to divide 4√3 by 4 to get √3

(which of course we knew at the beginning)

There are 4 triangles

All four right triangles are 30-60-90 triangles. Therefore, the length of the shorter leg in each triangle is half the hypotenuse, and the length of the longer leg is sqrt3 times the length of the shorter leg. We apply these facts to each triangle, starting with triangle AOB and working clockwise.
From $\triangle AOB$, we find $AB = AO/2 = 4$ and $BO = AB\sqrt{3}=4\sqrt{3}$.

From $\triangle BOC$, we find $BC = BO/2 =2\sqrt{3}$ and $CO = BC\sqrt{3} =2\sqrt{3}\cdot\sqrt{3} = 6$.

From $\triangle COD$, we find $CD = CO/2 = 3$ and $DO = CD\sqrt{3} = 3\sqrt{3}$.

From $\triangle DOE$, we find $DE = DO/2 = 3\sqrt{3}/2$ and $EO =DE\sqrt{3} = (3\sqrt{3}/2)\cdot \sqrt{3} = (3\sqrt{3}\cdot \sqrt{3})/2 = \boxed{9/2}$

the answer is 9/2