##A = (25sqrt(3))/2##
First let’s look at a picture.
Some initial observations:
The area ##A## of the rectangle is ##A=bh##.
By symmetry the base of the triangle is of length ##b+2t## and thus as it is of length ##10## we have ##b+2t = 10 => t = 5-b/2##
If we decide ##b## that also determines ##h## and thus we can write ##h## as a function of ##b##.
To write ##h## as a function of ##b## we can look at the right triangle with legs ##t## and ##h##. As it shares an angle with an equilateral triangle we know it is a ##30^@##-##60^@##-##90^@## triangle and thus ##t/h = 1/sqrt(3)##.
Solving for ##h## gives us ##h = sqrt(3)t = sqrt(3)(5-b/2)## by our initial observation.
Then we can rewrite our formula for the area as
##A = b*sqrt3(5-b/2) = sqrt(3)(-1/2b^2 + 5b)##
If we look at the graph for ##A## we will see it is a downward facing parabola and thus will have a maximum at its vertex. Then we can complete the square to find
##A = sqrt(3)(-1/2b^2+5b)##
## = -sqrt(3)/2(b^2-10b)##
## = -sqrt(3)/2((b-5)^2-25)##
And so the vertex and thus the maximum area is at ##b = 5##.
Finally we calculate the area from this to get
##A = -sqrt(3)/2((5-5)^2-25) = (25sqrt(3))/2##