2018 AMC 12B Problems/Problem 16
The solutions to the equation are connected in the complex plane to form a convex regular polygon, three of whose vertices are labeled and . What is the least possible area of
The answer is the same if we consider Now we just need to find the area of the triangle bounded by and This is just
Solution 2 (Understanding the polygon)
The polygon formed will be a regular octagon since there are roots of . By normal math computation, we can figure out that two roots of are and . These will lie on the real axis of the plane. Since it's a regular polygon, there has to be points on the vertical plane also which will be and .
Clearly, the rest of the points will lie in each quadrant. The next thing is to get their coordinates (note that to answer this question, we do not need all the coordinates, only 3 consecutive ones are needed).
The circumcircle of the octagon will have the equation . The coordinates of the point in the first quadrant will be equal in magnitude and both positive, so . Solving gives (meaning that the root represented is ).
This way we can deduce the values of the roots of the equation to be .
To get the area, consecutive points such as and can be used. The area can be computed using different methods like using the shoelace formula, or subtracting areas to find the area. The answer you get is .
(This method is not actually as long as it seems if you understand what you're doing while doing it. Also calculations can be made a little easier by solving using and multiplying your answer by ).
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