
Integral theory
Let S be the subset of xaxis consisting of the union of the open interval of length 1/4 centered at 1/2, and the open intervals of length 1/16 centered at 1/4 and 3/4, the open intervals of length 1/64 centered at 1/8, 3/8, 5/8, and 7/8, and so forth. Let U = S x (0,1) be the union of the open rectangles of height 1, based on these intervals. Thus U is the union of one rectangle of area 1/4, two rectangles of area 1/16, four rectangles of area 1/64, ... some of which overlap.
show that the inner area of U is less than 1/2.
My first approach was to sum the areas of each rectange...
(ie) 1/4 + 2(1/8) + 4(1/6) ....
however this is incorrect because the rectangles intersect.
Any ideas/help?
thanks.
ahh.. stupid question, I see why none of you answered it.
Obviously this sum converges to 1/2.
Of course the rectangles intersect so we over estimate the real inner area, so clearly the inner area is less than 1/2.
HOWEVER the last part of this question is much more difficult.
Let V = R/U. Show that V is a closed set whose ourter area is bigger than 1/2.
help with the last part would be appreciated.