I have floor(sqrt(floor(x)))
. Which is true:
 The inner
floor
is redundant.  The outer
floor
is redundant.
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Obviously the outer floor is not redundant, since for example, It is also easy to see that We need to find out whether or not Let us prove that if
Therefor by the fact that
Therefor So, assuming the outer To put it otherwise it is always true that
What about inner It is easy to see that
However you can prove in similar way that



The inner one is redundant, the outer one of course not. The outer one is not redundant, because the square root of a number x only results in an integer if x is a square number. The inner one is redundant, because the square root for any number in the interval [x,x+1[ (where x is an integer) always lies within the interval [floor(sqrt(x)),ceil(sqrt(x))[ and therefore you don't need to floor a number before taking the square root of it, if you are only interested the integer part of the result. 


Intuitively I believe the inner one is redundant, but I can't prove it. You're not allowed to vote me down unless you can provide a value of x that proves me wrong. 8) Edit: See v3's comment on this answer for proof  thanks, v3! 


The inner floor is redundant 


The inner floor is redundant. A proof by contradiction: Assume the inner floor is not redundant. That would mean that:
for some x and d where floor(x) = floor(x+d). Then we have three numbers to consider: a = sqrt(x), b = floor(sqrt(x+d)), c = sqrt(x+d). b is an integer, and a < b < c. That means that a^2 < b^2 < c^2, or x < b^2 < x+d. But if b is an integer, then b^2 is an integer. Therefore floor(x) < b^2, and b^2 <= floor(x+d), and then floor(x) < floor(x+d). But we started by assuming floor(x) = floor(x+d). We've reached a contradiction, so our assumption is false, and the inner floor is redundant. 


If x is an integer then the inner floor is redundant. If x is not an integer then neither are redundant. 


The outer floor is not redundant. Counterexample: x = 2. floor(sqrt(floor(2))) = floor(sqrt(2)) = floor(1.41...) Without the outer floor the result would be 1.41... 


If the inner floor were not redundant, then we would expect that floor(sqrt(n)) != floor(sqrt(m)), where m = floor(n) note that n  1 < m <= n. m is always less than or equal to n floor(sqrt(n)) != floor(sqrt(m)) requires that the values of sqrt(n) and sqrt(m) differ by at least 1.0 however, there are no values n for which the sqrt(n) differs by at least 1.0 from sqrt(n + 1), since for all values between 0 and 1 the sqrt of that value is < 1 by definition. thus, for all values n, the floor(sqrt(n)) == floor(sqrt(n + 1)). This is in contradiction to the original assumption. Thus the inner floor is redundant. 

