Olympiad problems

2012 Graduate School Of Mathematical Sciences, The Master Course, Kyoto University, 3

Show that there exists the maximum value of the function $f(x,\ y)=(3xy+1)e^{-(x^2+y^2)}$ on $\mathbb{R}^2$, then find the value.

2009 Greece National Olympiad, 3

Tags: calculus , inequalities

Let $ x,y,z$ be nonnegative real numbers such that $ x \plus{} y \plus{} z \equal{} 2$. Prove that $ x^{2}y^{2} \plus{} y^{2}z^{2} \plus{} z^{2}x^{2} \plus{} xyz\leq 1$. When does the equality occur?

1983 Putnam, A2

Tags: analysis , calculus

The shorthand of a clock has the length 3, the longhand has the length 4. Determine the distance between the endpoints of the hands at the time, where their distance increases the most.

1992 India National Olympiad, 9

Tags: calculus , geometry , circumcircle , trigonometry , perpendicular bisector , trig identities , law of sines

Let $A_1, A_2, \ldots, A_n$ be an $n$ -sided regular polygon. If $\frac{1}{A_1 A_2} = \frac{1}{A_1 A_3} + \frac{1}{A_1A_4}$, find $n$.

2022 IMC, 1

Tags: function , inequalities , integration , calculus

Let $f: [0,1] \to (0, \infty)$ be an integrable function such that $f(x)f(1-x) = 1$ for all $x\in [0,1]$. Prove that $\int_0^1f(x)dx \geq 1$.

Today's calculation of integrals, 873

Tags: calculus , integration , ellipse , analytic geometry , geometry , graphing lines , conic

Let $a,\ b$ be positive real numbers. Consider the circle $C_1: (x-a)^2+y^2=a^2$ and the ellipse $C_2: x^2+\frac{y^2}{b^2}=1.$ (1) Find the condition for which $C_1$ is inscribed in $C_2$. (2) Suppose $b=\frac{1}{\sqrt{3}}$ and $C_1$ is inscribed in $C_2$. Find the coordinate $(p,\ q)$ of the point of tangency in the first quadrant for $C_1$ and $C_2$. (3) Under the condition in (1), find the area of the part enclosed by $C_1,\ C_2$ for $x\geq p$. 60 point

2006 VJIMC, Problem 4

Tags: calculus , integration

Let $f:[0,\infty)\to\mathbb R$ ba a strictly convex continuous function such that $$\lim_{x\to+\infty}\frac{f(x)}x=+\infty.$$Prove that the improper integral $\int^{+\infty}_0\sin(f(x))\text dx$ is convergent but not absolutely convergent.

2012 Gulf Math Olympiad, 4

Tags: calculus , integration , geometry , 3d geometry , sphere , modular arithmetic , number theory

Fawzi cuts a spherical cheese completely into (at least three) slices of equal thickness. He starts at one end, making successive parallel cuts, working through the cheese until the slicing is complete. The discs exposed by the first two cuts have integral areas. [list](i) Prove that all the discs that he cuts have integral areas. (ii) Prove that the original sphere had integral surface area if, and only if, the area of the second disc that he exposes is even.[/list]

2012 Today's Calculation Of Integral, 813

Tags: calculus , integration , geometry , inequalities , quadratic , calculus computations

Let $a$ be a real number. Find the minimum value of $\int_0^1 |ax-x^3|dx$. How many solutions (including University Mathematics )are there for the problem? Any advice would be appreciated.

2020 LIMIT Category 2, 18

Tags: trigonometry , sum , limit , calculus

Evaluate the following sum: $n \choose 1$ $\sin (a) +$ $n \choose 2$ $\sin (2a) +...+$ $n \choose n$ $\sin (na)$ (A) $2^n \cos^n \left(\frac{a}{2}\right)\sin \left(\frac{na}{2}\right)$ (B) $2^n \sin^n \left(\frac{a}{2}\right)\cos \left(\frac{na}{2}\right)$ (C) $2^n \sin^n \left(\frac{a}{2}\right)\sin \left(\frac{na}{2}\right)$ (D) $2^n \cos^n \left(\frac{a}{2}\right)\cos \left(\frac{na}{2}\right)$

2011 Today's Calculation Of Integral, 689

Tags: calculus , integration , parabola , geometry , geometric transformation , rotation , conic

Let $C: y=x^2+ax+b$ be a parabola passing through the point $(1,\ -1)$. Find the minimum volume of the figure enclosed by $C$ and the $x$ axis by a rotation about the $x$ axis. Proposed by kunny

2013 Today's Calculation Of Integral, 883

Tags: calculus , integration , trigonometry , calculus computations , integral inequality , logarithm

Prove that for each positive integer $n$ \[\frac{4n^2+1}{4n^2-1}\int_0^{\pi} (e^{x}-e^{-x})\cos 2nx\ dx>\frac{e^{\pi}-e^{-\pi}-2}{4}\ln \frac{(2n+1)^2}{(2n-1)(n+3)}.\]

2024 CMI B.Sc. Entrance Exam, 1

Tags: geometry , integral calculus , calculus

(a) Sketch qualitativly the region with maximum area such that it lies in the first quadrant and is bound by $y=x^2-x^3$ and $y=kx$ where $k$ is a constent. The region must not have any other lines closing it. Note: $kx$ lies above $x^2-x^3$ (b) Find an expression for the volume of the solid obtained by spinning this region about the $y$ axis.

1997 VJIMC, Problem 3

Tags: calculus , differentiation

Let $c_1,c_2,\ldots,c_n$ be real numbers such that $$c_1^k+c_2^k+\ldots+c_n^k>0\qquad\text{for all }k=1,2,\ldots$$Let us put $$f(x)=\frac1{(1-c_1x)(1-c_2x)\cdots(1-c_nx)}.$$$z\in\mathbb C$ Show that $f^{(k)}(0)>0$ for all $k=1,2,\ldots$.

1997 Traian Lălescu, 4

Tags: limit , trigonometry , calculus , integration , real analysis

Compute the limit: \[ \lim_{n\to\infty} \frac{1}{n^2}\sum\limits_{1\leq i <j\leq n}\sin \frac{i+j}{n}\].

Today's calculation of integrals, 899

Tags: calculus , integration , limit , calculus computations

Find the limit as below. \[\lim_{n\to\infty} \frac{(1^2+2^2+\cdots +n^2)(1^3+2^3+\cdots +n^3)(1^4+2^4+\cdots +n^4)}{(1^5+2^5+\cdots +n^5)^2}\]

2010 Today's Calculation Of Integral, 541

Tags: calculus , integration , function , calculus computations

Find the functions $ f(x),\ g(x)$ satisfying the following equations. (1) $ f'(x) \equal{} 2f(x) \plus{} 10,\ f(0) \equal{} 0$ (2) $ \int_0^x u^3g(u)du \equal{} x^4 \plus{} g(x)$

1995 AMC 12/AHSME, 23

Tags: inequalities , calculus , integration , trigonometry , triangle inequality , pythagorean theorem , geometry

The sides of a triangle have lengths $11$,$15$, and $k$, where $k$ is an integer. For how many values of $k$ is the triangle obtuse? $\textbf{(A)}\ 5 \qquad \textbf{(B)}\ 7 \qquad \textbf{(C)}\ 12 \qquad \textbf{(D)}\ 13 \qquad \textbf{(E)}\ 14$

2009 Today's Calculation Of Integral, 505

Tags: calculus , integration , trigonometry , calculus computations

In the $ xyz$ space with the origin $ O$, given a cuboid $ K: |x|\leq \sqrt {3},\ |y|\leq \sqrt {3},\ 0\leq z\leq 2$ and the plane $ \alpha : z \equal{} 2$. Draw the perpendicular $ PH$ from $ P$ to the plane. Find the volume of the solid formed by all points of $ P$ which are included in $ K$ such that $ \overline{OP}\leq \overline{PH}$.

2005 Morocco TST, 1

Tags: function , calculus , derivative , induction , limit , algebra

Find all the functions $f: \mathbb R \rightarrow \mathbb R$ satisfying : $(x+y)(f(x)-f(y))=(x-y)f(x+y)$ for all $x,y \in \mathbb R$

2013 Stanford Mathematics Tournament, 8

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

The function $f(x)$ is defined for all $x\ge 0$ and is always nonnegative. It has the additional property that if any line is drawn from the origin with any positive slope $m$, it intersects the graph $y=f(x)$ at precisely one point, which is $\frac{1}{\sqrt{m}}$ units from the origin. Let $a$ be the unique real number for which $f$ takes on its maximum value at $x=a$ (you may assume that such an $a$ exists). Find $\int_{0}^{a}f(x) \, dx$.