Yesterday, Manhattan GMAT posted a GMAT question on our blog. Today, they have followed up with the answer:
The surface area of a rectangular solid is the total area of all of its faces. Since the side lengths are 3, 4, and z, there will be two faces with area 12 (= 3×4), two faces with area 3z, and two faces with area 4z. Thus, the total surface area of this solid will be 2×(12 + 3z + 4z) = 24 + 14z.
Meanwhile, since a cube has 6 faces, its surface area is 6 times the area of one face, or 6s2.
We now set these expressions equal to each other.
24 + 14
z = 6
s2
12 + 7z = 3s2
We need to find two integers, z and s, that fit this equation, and z needs to be its lowest possible value. At this point, we should switch to testing numbers—although we can save ourselves some work if we notice that z must be a multiple of 3. (Why? Notice that the right side, 3s2, is a multiple of 3, and on the left side, 12 is a multiple of 3. That means 7z must be a multiple of 3, and since 7 is not a multiple of 3 itself, z must be a multiple of 3.) Also, z must be a positive integer (otherwise, the rectangular solid would not be a solid), so we can start with z = 3 and check.
If z = 3, 12 + 7z = 12 + 21 = 33 = 3s2, meaning that s2 = 11, but 11 is not a perfect square. No good.
If z = 6, 12 + 7z = 12 + 42 = 54 = 3s2, meaning that s2 = 18, but 18 is not a perfect square. No good.
If z = 9, 12 + 7z = 12 + 63 = 75 = 3s2, meaning that s2 = 25, so s = 5. This fits.
Since we are asked for s, we must pick 5. Be careful not to pick z (which would be answer E).
The correct answer is (B).