Difference between revisions of "2011 JBMO Problems"

Latest revision as of 19:52, 2 April 2019

Problem 1

Let $a,b,c$ be positive real numbers such that $abc = 1$ . Prove that:

$\displaystyle\prod(a^5+a^4+a^3+a^2+a+1)\geq 8(a^2+a+1)(b^2+b+1)(c^2+c+1)$

Solution

Problem 2

Find all primes $p$ such that there exist positive integers $x,y$ that satisfy $x(y^2-p)+y(x^2-p)=5p$ .

Solution

Problem 3

Let $n>3$ be a positive integer. Equilateral triangle ABC is divided into $n^2$ smaller congruent equilateral triangles (with sides parallel to its sides). Let $m$ be the number of rhombuses that contain two small equilateral triangles and $d$ the number of rhombuses that contain eight small equilateral triangles. Find the difference $m-d$ in terms of $n$ .

Solution

Problem 4

Let $ABCD$ be a convex quadrilateral and points $E$ and $F$ on sides $AB,CD$ such that $\tfrac{AB}{AE}=\tfrac{CD}{DF}=n$

If $S$ is the area of $AEFD$ show that ${S\leq\frac{AB\cdot CD+n(n-1)AD^2+n^2DA\cdot BC}{2n^2}}$

Solution

@@ Line 9: / Line 9: @@
 ==Problem 2==
-Find all primes <math>p</math> such that there exist positive integers <math>x,y</math> that satisfy <math>x(y^2-p)+y(x^2-p)=5p</math>
+Find all primes <math>p</math> such that there exist positive integers <math>x,y</math> that satisfy <math>x(y^2-p)+y(x^2-p)=5p</math>.
 [[2011 JBMO Problems/Problem 2|Solution]]

2011 JBMO (Problems • Resources)
Preceded by 2010 JBMO Problems	Followed by 2012 JBMO Problems
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Difference between revisions of "2011 JBMO Problems"

Latest revision as of 19:52, 2 April 2019

Contents

Problem 1

Problem 2

Problem 3

Problem 4

See Also