Olympiad problems

2012 ELMO Shortlist, 10

Tags: geometry , conics , circumcircle , projective geometry , algebra proposed , algebra

Let $A_1A_2A_3A_4A_5A_6A_7A_8$ be a cyclic octagon. Let $B_i$ by the intersection of $A_iA_{i+1}$ and $A_{i+3}A_{i+4}$. (Take $A_9 = A_1$, $A_{10} = A_2$, etc.) Prove that $B_1, B_2, \ldots , B_8$ lie on a conic. [i]David Yang.[/i]

2004 Romania National Olympiad, 1

Tags: conics , parabola , geometry unsolved , geometry

Let $n \geq 3$ be an integer and $F$ be the focus of the parabola $y^2=2px$. A regular polygon $A_1 A_2 \ldots A_n$ has the center in $F$ and none of its vertices lie on $Ox$. $\left( FA_1 \right., \left( FA_2 \right., \ldots, \left( FA_n \right.$ intersect the parabola at $B_1,B_2,\ldots,B_n$. Prove that \[ FB_1 + FB_2 + \ldots + FB_n > np . \] [i]Calin Popescu[/i]

1992 Flanders Math Olympiad, 3

Tags: geometry , 3D geometry , sphere , conics

a conic with apotheme 1 slides (varying height and radius, with $r < \frac12$) so that the conic's area is $9$ times that of its inscribed sphere. What's the height of that conic?

1941 Putnam, B4

Tags: Putnam , conics , ellipse , hyperbola

Given two perpendicular diameters $AB$ and $CD$ of an ellipse, we say that the diameter $A'B'$ is conjugate to $AB$ if $A'B'$ is parallel to the tangent to the ellipse at $A$. Let $A'B'$ be conjugate to $AB$ and $C'D'$ be conjugate to $CD$. Prove that the rectangular hyperbola through $A', B', C'$ and $D'$ passes through the foci of the ellipse.

1964 AMC 12/AHSME, 24

Tags: conics , parabola , AMC

Let $y=(x-a)^2+(x-b)^2, a, b$ constants. For what value of $x$ is $y$ a minimum? $ \textbf{(A)}\ \frac{a+b}{2} \qquad\textbf{(B)}\ a+b \qquad\textbf{(C)}\ \sqrt{ab} \qquad\textbf{(D)}\ \sqrt{\frac{a^2+b^2}{2}}\qquad\textbf{(E)}\ \frac{a+b}{2ab} $

2008 IMC, 2

Tags: conics , ellipse , search , geometry , ratio , analytic geometry , trigonometry

Two different ellipses are given. One focus of the first ellipse coincides with one focus of the second ellipse. Prove that the ellipses have at most two points in common.

1994 Balkan MO, 1

Tags: geometry , parallelogram , analytic geometry , trigonometry , parameterization , conics , parabola

An acute angle $XAY$ and a point $P$ inside the angle are given. Construct (using a ruler and a compass) a line that passes through $P$ and intersects the rays $AX$ and $AY$ at $B$ and $C$ such that the area of the triangle $ABC$ equals $AP^2$. [i]Greece[/i]

1996 Tournament Of Towns, (516) 3

Tags: conics , parabola

The parabola $y = x^2$ is drawn in the coordinate plane and then the axes are erased so that the whole parabola stays on the picture but the origin is not shown on it. Reconstruct the axes with compass and ruler alone. (A Egorov)

2016 Belarus Team Selection Test, 3

Tags: conics , hyperbola , analytic geometry , algebra

Point $A,B$ are marked on the right branch of the hyperbola $y=\frac{1}{x},x>0$. The straight line $l$ passing through the origin $O$ is perpendicular to $AB$ and meets $AB$ and given branch of the hyperbola at points $D$ and $C$ respectively. The circle through $A,B,C$ meets $l$ at $F$. Find $OD:CF$

1979 IMO Longlists, 71

Tags: geometry , parallelogram , conics , circles , Fixed point , IMO , IMO 1979

Two circles in a plane intersect. $A$ is one of the points of intersection. Starting simultaneously from $A$ two points move with constant speed, each travelling along its own circle in the same sense. The two points return to $A$ simultaneously after one revolution. Prove that there is a fixed point $P$ in the plane such that the two points are always equidistant from $P.$

2006 AMC 10, 8

Tags: quadratics , conics , parabola , AMC

A parabola with equation $ y \equal{} x^2 \plus{} bx \plus{} c$ passes through the points $ (2,3)$ and $ (4,3)$. What is $ c$? $ \textbf{(A) } 2 \qquad \textbf{(B) } 5 \qquad \textbf{(C) } 7 \qquad \textbf{(D) } 10 \qquad \textbf{(E) } 11$

2013 Today's Calculation Of Integral, 874

Tags: calculus , integration , conics , parabola , geometry , calculus computations

Given a parabola $C : y=1-x^2$ in $xy$-palne with the origin $O$. Take two points $P(p,\ 1-p^2),\ Q(q,\ 1-q^2)\ (p<q)$ on $C$. (1) Express the area $S$ of the part enclosed by two segments $OP,\ OQ$ and the parabalola $C$ in terms of $p,\ q$. (2) If $q=p+1$, then find the minimum value of $S$. (3) If $pq=-1$, then find the minimum value of $S$.

1995 Romania Team Selection Test, 1

Tags: geometry , incenter , circumcircle , conics , ellipse , perpendicular bisector , geometry unsolved

Let AD be the altitude of a triangle ABC and E , F be the incenters of the triangle ABD and ACD , respectively. line EF meets AB and AC at K and L. prove tht AK=AL if and only if AB=AC or A=90

2014 AMC 12/AHSME, 25

Tags: conics , parabola , calculus , derivative , vector , analytic geometry , parameterization

The parabola $P$ has focus $(0,0)$ and goes through the points $(4,3)$ and $(-4,-3)$. For how many points $(x,y)\in P$ with integer coefficients is it true that $|4x+3y|\leq 1000$? $\textbf{(A) }38\qquad \textbf{(B) }40\qquad \textbf{(C) }42\qquad \textbf{(D) }44\qquad \textbf{(E) }46\qquad$

1998 All-Russian Olympiad, 1

Tags: conics , parabola , Support , algebra , polynomial , Vieta , geometry

The angle formed by the rays $y=x$ and $y=2x$ ($x \ge 0$) cuts off two arcs from a given parabola $y=x^2+px+q$. Prove that the projection of one arc onto the $x$-axis is shorter by $1$ than that of the second arc.

1962 AMC 12/AHSME, 15

Tags: conics , parabola , ellipse , analytic geometry , ratio

Given triangle $ ABC$ with base $ AB$ fixed in length and position. As the vertex $ C$ moves on a straight line, the intersection point of the three medians moves on: $ \textbf{(A)}\ \text{a circle} \qquad \textbf{(B)}\ \text{a parabola} \qquad \textbf{(C)}\ \text{an ellipse} \qquad \textbf{(D)}\ \text{a straight line} \qquad \textbf{(E)}\ \text{a curve here not listed}$

2006 Kyiv Mathematical Festival, 1

Tags: geometry , conics , hyperbola , Asymptote , geometric transformation , reflection , geometry proposed

See all the problems from 5-th Kyiv math festival [url=http://www.mathlinks.ro/Forum/viewtopic.php?p=506789#p506789]here[/url] Triangle $ABC$ and straight line $l$ are given at the plane. Construct using a compass and a ruler the straightline which is parallel to $l$ and bisects the area of triangle $ABC.$

2011 Today's Calculation Of Integral, 758

Tags: calculus , integration , analytic geometry , graphing lines , slope , geometry , conics

Find the slope of a line passing through the point $(0,\ 1)$ with which the area of the part bounded by the line and the parabola $y=x^2$ is $\frac{5\sqrt{5}}{6}.$

2011 Olympic Revenge, 3

Tags: conics , ellipse , analytic geometry , combinatorics proposed , combinatorics

Let $E$ to be an infinite set of congruent ellipses in the plane, and $r$ a fixed line. It is known that each line parallel to $r$ intersects at least one ellipse belonging to $E$. Prove that there exist infinitely many triples of ellipses belonging to $E$, such that there exists a line that intersect the triple of ellipses.

2006 Stanford Mathematics Tournament, 13

Tags: trigonometry , conics , hyperbola , analytic geometry , graphing lines , slope

A ray is drawn from the origin tangent to the graph of the upper part of the hyperbola $y^2=x^2-x+1$ in the first quadrant. This ray makes an angle of $\theta$ with the positive $x$-axis. Compute $\cos\theta$.

1985 National High School Mathematics League, 2

Tags: analytic geometry , geometry , 3D geometry , conics , parabola

$PQ$ is a chord of parabola $y^2=2px(p>0)$ and $PQ$ pass its focus $F$. Line $l$ is its directrix. Projection of $PQ$ on $l$ is $MN$. The area of curved surface that $PQ$ rotate around $l$ is $S_1$, the area of spherical surface of the ball with diameter of $MN$ is $S_2$, then $\text{(A)}S_1>S_2\qquad\text{(B)}S_1<S_2\qquad\text{(C)}S_1\geq S_2\qquad\text{(D)}$ Not sure

2003 AMC 12-AHSME, 19

Tags: conics , parabola , function , geometry , geometric transformation , reflection , analytic geometry

A parabola with equation $ y \equal{} ax^2 \plus{} bx \plus{} c$ is reﬂected about the $ x$-axis. The parabola and its reﬂection are translated horizontally ﬁve units in opposite directions to become the graphs of $ y \equal{} f(x)$ and $ y \equal{} g(x)$, respectively. Which of the following describes the graph of $ y \equal{} (f \plus{} g)(x)$? $ \textbf{(A)}\ \text{a parabola tangent to the }x\text{ \minus{} axis}$ $ \textbf{(B)}\ \text{a parabola not tangent to the }x\text{ \minus{} axis} \qquad \textbf{(C)}\ \text{a horizontal line}$ $ \textbf{(D)}\ \text{a non \minus{} horizontal line} \qquad \textbf{(E)}\ \text{the graph of a cubic function}$

2008 AIME Problems, 14

Tags: trigonometry , calculus , derivative , geometry , circumcircle , function , conics

Let $ a$ and $ b$ be positive real numbers with $ a\ge b$. Let $ \rho$ be the maximum possible value of $ \frac{a}{b}$ for which the system of equations \[ a^2\plus{}y^2\equal{}b^2\plus{}x^2\equal{}(a\minus{}x)^2\plus{}(b\minus{}y)^2\]has a solution in $ (x,y)$ satisfying $ 0\le x<a$ and $ 0\le y<b$. Then $ \rho^2$ can be expressed as a fraction $ \frac{m}{n}$, where $ m$ and $ n$ are relatively prime positive integers. Find $ m\plus{}n$.

2022 AMC 12/AHSME, 8

Tags: AMC , AMC 12 , analytic geometry , conics , 2022 AMC , 2022 AMC 12B

What is the graph of $y^4+1=x^4+2y^2$ in the coordinate plane? $ \textbf{(A)}\ \textbf{Two intersecting parabolas} \qquad \textbf{(B)}\ \textbf{Two nonintersecting parabolas} \qquad \textbf{(C)}\ \textbf{Two intersecting circles} \qquad \textbf{(D)}\ \textbf{A circle and a hyperbola} \qquad \textbf{(E)}\ \textbf{A circle and two parabolas}$

2012 ISI Entrance Examination, 7

Tags: conics , ellipse , geometry proposed , geometry

Let $\Gamma_1,\Gamma_2$ be two circles centred at the points $(a,0),(b,0);0<a<b$ and having radii $a,b$ respectively.Let $\Gamma$ be the circle touching $\Gamma_1$ externally and $\Gamma_2$ internally. Find the locus of the centre of of $\Gamma$