2005 USAMO Problems

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Problems from the 2005 USAMO.

Day 1

Problem 1

Determine all composite positive integers $\displaystyle n$ for which it is possible to arrange all divisors of $n$ that are greater than 1 in a circle so that no two adjacent divisors are relatively prime.

Solution

Problem 2

Prove that the system

$\begin{matrix} \qquad x^6+x^3+x^3y+y & = 147^{157} \\[.1in] x^3+x^3y+y^2+y+z^9 & = 157^{147} \end{matrix}$

has no solutions in integers $\displaystyle x$, $\displaystyle y$, and $\displaystyle z$.

Problem 3

Let $\displaystyle ABC$ be an acute-angled triangle, and let $\displaystyle P$ and $\displaystyle Q$ be two points on side $\displaystyle BC$. Construct point $\displaystyle C_1$ in such a way that convex quadrilateral $\displaystyle APBC_1$ is cyclic, $\displaystyle QC_1 \mid\mid CA$, and $\displaystyle C_1$ and $\displaystyle Q$ lie on opposite sides of line $\displaystyle AB$. Construct point $\displaystyle B_1$ in such a way that convex quadrilateral $\displaystyle APCB_1$ is cyclic, $\displaystyle QB_1 \mid\mid BA$, and $\displaystyle B_1$ and $\displaystyle Q$ lie on opposite sides of line $\displaystyle AC$. Prove that points $\displaystyle B_1, C_1,P$, and $\displaystyle Q$ lie on a circle.

Day 2

Problem 4

Solution

Problem 5

Solution

Problem 6

Solution

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