2021 CIME I Problems/Problem 1

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Problem

Let $ABCD$ be a square. Points $P$ and $Q$ are on sides $AB$ and $CD,$ respectively$,$ such that the areas of quadrilaterals $APQD$ and $BPQC$ are $20$ and $21,$ respectively. Given that $\tfrac{AP}{BP}=2,$ then $\tfrac{DQ}{CQ}=\tfrac{a}{b},$ where $a$ and $b$ are relatively prime positive integers. Find $a+b$.

Solution

[asy]  import geometry;  point B = (0,0); point C = (16,0); point A = (0,16); point D = (16,16); point P = A * 1/3; point Q = C * 38/85 + D * 47/85;  // Square ABCD draw(A--B--C--D--A); dot(A); label("A",A,NW); dot(B); label("B",B,SW); dot(C); label("C",C,SE); dot(D); label("D",D,NE);  // Segment PQ draw(P--Q); dot(P); label("P",P,W); dot(Q); label("Q",Q,E);  [/asy]

From the problem, we know that $[ABCD]=[APQD]+[BPQC]=20+21=41$. Thus, the side length of the square is $\sqrt{41}$. Furthermore, because $\tfrac{AP}{BP}=2$, $AP = \tfrac{2}{3}\sqrt{41}$. Because $\overline{DQ} \parallel \overline{AP}$, $APQD$ is a trapezoid. Thus, if we let $DQ=x$, the area of $APQD$ is $\frac{x+\tfrac{2\sqrt{41}}{3}}{2}*\sqrt{41}$. Equating this to the given area of $20$, we can now solve for $x$: x+2413241=2041x2+41341=20341x+82=120x=38341=3841123 Because $CQ=\sqrt{41}-x$, we can now find a value for $\frac{DQ}{CQ}$: DQCQ=x41x=3841123413841123=3812338=3885

Thus, our answer is $38+85=\boxed{123}$.

See also

2021 CIME I (ProblemsAnswer KeyResources)
Preceded by
First Problem
Followed by
Problem 2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
All CIME Problems and Solutions