Split (1)

train · 50.2k rows

problem stringlengths 10 5.15k	answer dict
Find the sum of all real numbers $x$ for which $$\lfloor\lfloor\cdots\lfloor\lfloor\lfloor x\rfloor+x\rfloor+x\rfloor \cdots\rfloor+x\rfloor=2017 \text { and }\{\{\cdots\{\{\{x\}+x\}+x\} \cdots\}+x\}=\frac{1}{2017}$$ where there are $2017 x$ 's in both equations. ( $\lfloor x\rfloor$ is the integer part of $x$, and $\{x\}$ is the fractional part of $x$.) Express your sum as a mixed number.	{ "answer": "3025 \\frac{1}{2017}", "ground_truth": null, "style": null, "task_type": "math" }
Distinct points $A, B, C, D$ are given such that triangles $A B C$ and $A B D$ are equilateral and both are of side length 10 . Point $E$ lies inside triangle $A B C$ such that $E A=8$ and $E B=3$, and point $F$ lies inside triangle $A B D$ such that $F D=8$ and $F B=3$. What is the area of quadrilateral $A E F D$ ?	{ "answer": "\\frac{91 \\sqrt{3}}{4}", "ground_truth": null, "style": null, "task_type": "math" }
On a $3 \times 3$ chessboard, each square contains a knight with $\frac{1}{2}$ probability. What is the probability that there are two knights that can attack each other? (In chess, a knight can attack any piece which is two squares away from it in a particular direction and one square away in a perpendicular direction.)	{ "answer": "\\frac{209}{256}", "ground_truth": null, "style": null, "task_type": "math" }
Let $g_{1}(x)=\frac{1}{3}\left(1+x+x^{2}+\cdots\right)$ for all values of $x$ for which the right hand side converges. Let $g_{n}(x)=g_{1}\left(g_{n-1}(x)\right)$ for all integers $n \geq 2$. What is the largest integer $r$ such that $g_{r}(x)$ is defined for some real number $x$ ?	{ "answer": "5", "ground_truth": null, "style": null, "task_type": "math" }
$H O W, B O W$, and $D A H$ are equilateral triangles in a plane such that $W O=7$ and $A H=2$. Given that $D, A, B$ are collinear in that order, find the length of $B A$.	{ "answer": "11", "ground_truth": null, "style": null, "task_type": "math" }
Let $p$ be a prime number and $\mathbb{F}_{p}$ be the field of residues modulo $p$. Let $W$ be the smallest set of polynomials with coefficients in $\mathbb{F}_{p}$ such that the polynomials $x+1$ and $x^{p-2}+x^{p-3}+\cdots+x^{2}+2x+1$ are in $W$, and for any polynomials $h_{1}(x)$ and $h_{2}(x)$ in $W$ the polynomial $r(x)$, which is the remainder of $h_{1}\left(h_{2}(x)\right)$ modulo $x^{p}-x$, is also in $W$. How many polynomials are there in $W$ ?	{ "answer": "p!", "ground_truth": null, "style": null, "task_type": "math" }
Let the sequence $a_{i}$ be defined as $a_{i+1}=2^{a_{i}}$. Find the number of integers $1 \leq n \leq 1000$ such that if $a_{0}=n$, then 100 divides $a_{1000}-a_{1}$.	{ "answer": "50", "ground_truth": null, "style": null, "task_type": "math" }
Let $A B C D$ be a convex quadrilateral whose diagonals $A C$ and $B D$ meet at $P$. Let the area of triangle $A P B$ be 24 and let the area of triangle $C P D$ be 25 . What is the minimum possible area of quadrilateral $A B C D ?$	{ "answer": "49+20 \\sqrt{6}", "ground_truth": null, "style": null, "task_type": "math" }
Regular octagon CHILDREN has area 1. Determine the area of quadrilateral LINE.	{ "answer": "\\frac{1}{2}", "ground_truth": null, "style": null, "task_type": "math" }
Let $N$ be the number of ways in which the letters in "HMMTHMMTHMMTHMMTHMMTHMMT" ("HMMT" repeated six times) can be rearranged so that each letter is adjacent to another copy of the same letter. For example, "MMMMMMTTTTTTHHHHHHHHHHHH" satisfies this property, but "HMMMMMTTTTTTHHHHHHHHHHHM" does not. Estimate $N$. An estimate of $E$ will earn $\left\lfloor 20 \min \left(\frac{N}{E}, \frac{E}{N}\right)^{4}\right\rfloor$ points.	{ "answer": "78556", "ground_truth": null, "style": null, "task_type": "math" }
Mr. Taf takes his 12 students on a road trip. Since it takes two hours to walk from the school to the destination, he plans to use his car to expedite the journey. His car can take at most 4 students at a time, and travels 15 times as fast as traveling on foot. If they plan their trip optimally, what is the shortest amount of time it takes for them to all reach the destination, in minutes?	{ "answer": "30.4 \\text{ or } \\frac{152}{5}", "ground_truth": null, "style": null, "task_type": "math" }
The function $f: \mathbb{Z}^{2} \rightarrow \mathbb{Z}$ satisfies - $f(x, 0)=f(0, y)=0$, and - $f(x, y)=f(x-1, y)+f(x, y-1)+x+y$ for all nonnegative integers $x$ and $y$. Find $f(6,12)$.	{ "answer": "77500", "ground_truth": null, "style": null, "task_type": "math" }
Find the number of ways in which the letters in "HMMTHMMT" can be rearranged so that each letter is adjacent to another copy of the same letter. For example, "MMMMTTHH" satisfies this property, but "HHTMMMTM" does not.	{ "answer": "12", "ground_truth": null, "style": null, "task_type": "math" }
Tetrahedron $A B C D$ has side lengths $A B=6, B D=6 \sqrt{2}, B C=10, A C=8, C D=10$, and $A D=6$. The distance from vertex $A$ to face $B C D$ can be written as $\frac{a \sqrt{b}}{c}$, where $a, b, c$ are positive integers, $b$ is square-free, and $\operatorname{gcd}(a, c)=1$. Find $100 a+10 b+c$.	{ "answer": "2851", "ground_truth": null, "style": null, "task_type": "math" }
In triangle $ABC, AB=32, AC=35$, and $BC=x$. What is the smallest positive integer $x$ such that $1+\cos^{2}A, \cos^{2}B$, and $\cos^{2}C$ form the sides of a non-degenerate triangle?	{ "answer": "48", "ground_truth": null, "style": null, "task_type": "math" }
Two players play a game where they are each given 10 indistinguishable units that must be distributed across three locations. (Units cannot be split.) At each location, a player wins at that location if the number of units they placed there is at least 2 more than the units of the other player. If both players distribute their units randomly (i.e. there is an equal probability of them distributing their units for any attainable distribution across the 3 locations), the probability that at least one location is won by one of the players can be expressed as $\frac{a}{b}$, where $a, b$ are relatively prime positive integers. Compute $100a+b$.	{ "answer": "1011", "ground_truth": null, "style": null, "task_type": "math" }
Let $a_{1}=3$, and for $n>1$, let $a_{n}$ be the largest real number such that $$4\left(a_{n-1}^{2}+a_{n}^{2}\right)=10 a_{n-1} a_{n}-9$$ What is the largest positive integer less than $a_{8}$ ?	{ "answer": "335", "ground_truth": null, "style": null, "task_type": "math" }
Real numbers $x, y, z$ satisfy $$x+x y+x y z=1, \quad y+y z+x y z=2, \quad z+x z+x y z=4$$ The largest possible value of $x y z$ is $\frac{a+b \sqrt{c}}{d}$, where $a, b, c, d$ are integers, $d$ is positive, $c$ is square-free, and $\operatorname{gcd}(a, b, d)=1$. Find $1000 a+100 b+10 c+d$.	{ "answer": "5272", "ground_truth": null, "style": null, "task_type": "math" }
Altitudes $B E$ and $C F$ of acute triangle $A B C$ intersect at $H$. Suppose that the altitudes of triangle $E H F$ concur on line $B C$. If $A B=3$ and $A C=4$, then $B C^{2}=\frac{a}{b}$, where $a$ and $b$ are relatively prime positive integers. Compute $100 a+b$.	{ "answer": "33725", "ground_truth": null, "style": null, "task_type": "math" }
In unit square $A B C D$, points $E, F, G$ are chosen on side $B C, C D, D A$ respectively such that $A E$ is perpendicular to $E F$ and $E F$ is perpendicular to $F G$. Given that $G A=\frac{404}{1331}$, find all possible values of the length of $B E$.	{ "answer": "\\frac{9}{11}", "ground_truth": null, "style": null, "task_type": "math" }
A repunit is a positive integer, all of whose digits are 1s. Let $a_{1}<a_{2}<a_{3}<\ldots$ be a list of all the positive integers that can be expressed as the sum of distinct repunits. Compute $a_{111}$.	{ "answer": "1223456", "ground_truth": null, "style": null, "task_type": "math" }
Tetrahedron $A B C D$ with volume 1 is inscribed in circumsphere $\omega$ such that $A B=A C=A D=2$ and $B C \cdot C D \cdot D B=16$. Find the radius of $\omega$.	{ "answer": "\\frac{5}{3}", "ground_truth": null, "style": null, "task_type": "math" }
A box contains twelve balls, each of a different color. Every minute, Randall randomly draws a ball from the box, notes its color, and then returns it to the box. Consider the following two conditions: (1) Some ball has been drawn at least twelve times (not necessarily consecutively). (2) Every ball has been drawn at least once. What is the probability that condition (1) is met before condition (2)? If the correct answer is $C$ and your answer is $A$, you get $\max \left(\left\lfloor 30\left(1-\frac{1}{2}\left\|\log _{2} C-\log _{2} A\right\|\right)\right\rfloor, 0\right)$ points.	{ "answer": "0.02236412255 \\ldots", "ground_truth": null, "style": null, "task_type": "math" }
Eight points are chosen on the circumference of a circle, labelled $P_{1}, P_{2}, \ldots, P_{8}$ in clockwise order. A route is a sequence of at least two points $P_{a_{1}}, P_{a_{2}}, \ldots, P_{a_{n}}$ such that if an ant were to visit these points in their given order, starting at $P_{a_{1}}$ and ending at $P_{a_{n}}$, by following $n-1$ straight line segments (each connecting each $P_{a_{i}}$ and $P_{a_{i+1}}$ ), it would never visit a point twice or cross its own path. Find the number of routes.	{ "answer": "8744", "ground_truth": null, "style": null, "task_type": "math" }
Compute the number of functions $f:\{1,2, \ldots, 9\} \rightarrow\{1,2, \ldots, 9\}$ which satisfy $f(f(f(f(f(x)))))=$ $x$ for each $x \in\{1,2, \ldots, 9\}$.	{ "answer": "3025", "ground_truth": null, "style": null, "task_type": "math" }
Let $x, y, z$ be real numbers satisfying $$\frac{1}{x}+y+z=x+\frac{1}{y}+z=x+y+\frac{1}{z}=3$$ The sum of all possible values of $x+y+z$ can be written as $\frac{m}{n}$, where $m, n$ are positive integers and $\operatorname{gcd}(m, n)=1$. Find $100 m+n$.	{ "answer": "6106", "ground_truth": null, "style": null, "task_type": "math" }
Triangle $A B C$ has side lengths $A B=15, B C=18, C A=20$. Extend $C A$ and $C B$ to points $D$ and $E$ respectively such that $D A=A B=B E$. Line $A B$ intersects the circumcircle of $C D E$ at $P$ and $Q$. Find the length of $P Q$.	{ "answer": "37", "ground_truth": null, "style": null, "task_type": "math" }
Let $x, y, z$ be real numbers satisfying $$\begin{aligned} 2 x+y+4 x y+6 x z & =-6 \\ y+2 z+2 x y+6 y z & =4 \\ x-z+2 x z-4 y z & =-3 \end{aligned}$$ Find $x^{2}+y^{2}+z^{2}$.	{ "answer": "29", "ground_truth": null, "style": null, "task_type": "math" }
Convex quadrilateral $B C D E$ lies in the plane. Lines $E B$ and $D C$ intersect at $A$, with $A B=2$, $A C=5, A D=200, A E=500$, and $\cos \angle B A C=\frac{7}{9}$. What is the largest number of nonoverlapping circles that can lie in quadrilateral $B C D E$ such that all of them are tangent to both lines $B E$ and $C D$ ?	{ "answer": "5", "ground_truth": null, "style": null, "task_type": "math" }
Point $P$ lies inside equilateral triangle $A B C$ so that $\angle B P C=120^{\circ}$ and $A P \sqrt{2}=B P+C P$. $\frac{A P}{A B}$ can be written as $\frac{a \sqrt{b}}{c}$, where $a, b, c$ are integers, $c$ is positive, $b$ is square-free, and $\operatorname{gcd}(a, c)=1$. Find $100 a+10 b+c$.	{ "answer": "255", "ground_truth": null, "style": null, "task_type": "math" }
Let $a_{1}, a_{2}, a_{3}, \ldots$ be a sequence of positive integers where $a_{1}=\sum_{i=0}^{100} i$! and $a_{i}+a_{i+1}$ is an odd perfect square for all $i \geq 1$. Compute the smallest possible value of $a_{1000}$.	{ "answer": "7", "ground_truth": null, "style": null, "task_type": "math" }
How many ways are there to color every integer either red or blue such that $n$ and $n+7$ are the same color for all integers $n$, and there does not exist an integer $k$ such that $k, k+1$, and $2k$ are all the same color?	{ "answer": "6", "ground_truth": null, "style": null, "task_type": "math" }
Two unit squares $S_{1}$ and $S_{2}$ have horizontal and vertical sides. Let $x$ be the minimum distance between a point in $S_{1}$ and a point in $S_{2}$, and let $y$ be the maximum distance between a point in $S_{1}$ and a point in $S_{2}$. Given that $x=5$, the difference between the maximum and minimum possible values for $y$ can be written as $a+b \sqrt{c}$, where $a, b$, and $c$ are integers and $c$ is positive and square-free. Find $100 a+10 b+c$.	{ "answer": "472", "ground_truth": null, "style": null, "task_type": "math" }
Two points are chosen inside the square $\{(x, y) \mid 0 \leq x, y \leq 1\}$ uniformly at random, and a unit square is drawn centered at each point with edges parallel to the coordinate axes. The expected area of the union of the two squares can be expressed as $\frac{a}{b}$, where $a, b$ are relatively prime positive integers. Compute $100a+b$.	{ "answer": "1409", "ground_truth": null, "style": null, "task_type": "math" }
In how many ways can you fill a $3 \times 3$ table with the numbers 1 through 9 (each used once) such that all pairs of adjacent numbers (sharing one side) are relatively prime?	{ "answer": "2016", "ground_truth": null, "style": null, "task_type": "math" }
Consider a sequence $x_{n}$ such that $x_{1}=x_{2}=1, x_{3}=\frac{2}{3}$. Suppose that $x_{n}=\frac{x_{n-1}^{2} x_{n-2}}{2 x_{n-2}^{2}-x_{n-1} x_{n-3}}$ for all $n \geq 4$. Find the least $n$ such that $x_{n} \leq \frac{1}{10^{6}}$.	{ "answer": "13", "ground_truth": null, "style": null, "task_type": "math" }
What is the perimeter of the triangle formed by the points of tangency of the incircle of a 5-7-8 triangle with its sides?	{ "answer": "\\frac{9 \\sqrt{21}}{7}+3", "ground_truth": null, "style": null, "task_type": "math" }
Let $A B C D E F G H$ be an equilateral octagon with $\angle A \cong \angle C \cong \angle E \cong \angle G$ and $\angle B \cong \angle D \cong \angle F \cong$ $\angle H$. If the area of $A B C D E F G H$ is three times the area of $A C E G$, then $\sin B$ can be written as $\frac{m}{n}$, where $m, n$ are positive integers and $\operatorname{gcd}(m, n)=1$. Find $100 m+n$.	{ "answer": "405", "ground_truth": null, "style": null, "task_type": "math" }
A mathematician $M^{\prime}$ is called a descendent of mathematician $M$ if there is a sequence of mathematicians $M=M_{1}, M_{2}, \ldots, M_{k}=M^{\prime}$ such that $M_{i}$ was $M_{i+1}$ 's doctoral advisor for all $i$. Estimate the number of descendents that the mathematician who has had the largest number of descendents has had, according to the Mathematical Genealogy Project. Note that the Mathematical Genealogy Project has records dating back to the 1300s. If the correct answer is $X$ and you write down $A$, your team will receive $\max \left(25-\left\lfloor\frac{\|X-A\|}{100}\right\rfloor, 0\right)$ points, where $\lfloor x\rfloor$ is the largest integer less than or equal to $x$.	{ "answer": "82310", "ground_truth": null, "style": null, "task_type": "math" }
Each square in the following hexomino has side length 1. Find the minimum area of any rectangle that contains the entire hexomino.	{ "answer": "\\frac{21}{2}", "ground_truth": null, "style": null, "task_type": "math" }
The numbers $1,2, \ldots, 10$ are written in a circle. There are four people, and each person randomly selects five consecutive integers (e.g. $1,2,3,4,5$, or $8,9,10,1,2$). If the probability that there exists some number that was not selected by any of the four people is $p$, compute $10000p$.	{ "answer": "3690", "ground_truth": null, "style": null, "task_type": "math" }
Paul Erdős was one of the most prolific mathematicians of all time and was renowned for his many collaborations. The Erdős number of a mathematician is defined as follows. Erdős has an Erdős number of 0, a mathematician who has coauthored a paper with Erdős has an Erdős number of 1, a mathematician who has not coauthored a paper with Erdős, but has coauthored a paper with a mathematician with Erdős number 1 has an Erdős number of 2, etc. If no such chain exists between Erdős and another mathematician, that mathematician has an Erdős number of infinity. Of the mathematicians with a finite Erdős number (including those who are no longer alive), what is their average Erdős number according to the Erdős Number Project? If the correct answer is $X$ and you write down $A$, your team will receive $\max (25-\lfloor 100\|X-A\|\rfloor, 0)$ points where $\lfloor x\rfloor$ is the largest integer less than or equal to $x$.	{ "answer": "4.65", "ground_truth": null, "style": null, "task_type": "math" }
Regular octagon $C H I L D R E N$ has area 1. Find the area of pentagon $C H I L D$.	{ "answer": "\\frac{1}{2}", "ground_truth": null, "style": null, "task_type": "math" }
Fisica and Ritmo discovered a piece of Notalium shaped like a rectangular box, and wanted to find its volume. To do so, Fisica measured its three dimensions using a ruler with infinite precision, multiplied the results and rounded the product to the nearest cubic centimeter, getting a result of 2017 cubic centimeters. Ritmo, on the other hand, measured each dimension to the nearest centimeter and multiplied the rounded measurements, getting a result of $V$ cubic centimeters. Find the positive difference between the least and greatest possible positive values for $V$.	{ "answer": "7174", "ground_truth": null, "style": null, "task_type": "math" }
Rebecca has four resistors, each with resistance 1 ohm . Every minute, she chooses any two resistors with resistance of $a$ and $b$ ohms respectively, and combine them into one by one of the following methods: - Connect them in series, which produces a resistor with resistance of $a+b$ ohms; - Connect them in parallel, which produces a resistor with resistance of $\frac{a b}{a+b}$ ohms; - Short-circuit one of the two resistors, which produces a resistor with resistance of either $a$ or $b$ ohms. Suppose that after three minutes, Rebecca has a single resistor with resistance $R$ ohms. How many possible values are there for $R$ ?	{ "answer": "15", "ground_truth": null, "style": null, "task_type": "math" }
Given complex number $z$, define sequence $z_{0}, z_{1}, z_{2}, \ldots$ as $z_{0}=z$ and $z_{n+1}=2 z_{n}^{2}+2 z_{n}$ for $n \geq 0$. Given that $z_{10}=2017$, find the minimum possible value of $\|z\|$.	{ "answer": "\\frac{\\sqrt[1024]{4035}-1}{2}", "ground_truth": null, "style": null, "task_type": "math" }
We say a triple $\left(a_{1}, a_{2}, a_{3}\right)$ of nonnegative reals is better than another triple $\left(b_{1}, b_{2}, b_{3}\right)$ if two out of the three following inequalities $a_{1}>b_{1}, a_{2}>b_{2}, a_{3}>b_{3}$ are satisfied. We call a triple $(x, y, z)$ special if $x, y, z$ are nonnegative and $x+y+z=1$. Find all natural numbers $n$ for which there is a set $S$ of $n$ special triples such that for any given special triple we can find at least one better triple in $S$.	{ "answer": "n \\geq 4", "ground_truth": null, "style": null, "task_type": "math" }
In the game of set, each card has four attributes, each of which takes on one of three values. A set deck consists of one card for each of the 81 possible four-tuples of attributes. Given a collection of 3 cards, call an attribute good for that collection if the three cards either all take on the same value of that attribute or take on all three different values of that attribute. Call a collection of 3 cards two-good if exactly two attributes are good for that collection. How many two-good collections of 3 cards are there? The order in which the cards appear does not matter.	{ "answer": "25272", "ground_truth": null, "style": null, "task_type": "math" }
$A B C D E$ is a cyclic convex pentagon, and $A C=B D=C E . A C$ and $B D$ intersect at $X$, and $B D$ and $C E$ intersect at $Y$. If $A X=6, X Y=4$, and $Y E=7$, then the area of pentagon $A B C D E$ can be written as $\frac{a \sqrt{b}}{c}$, where $a, b, c$ are integers, $c$ is positive, $b$ is square-free, and $\operatorname{gcd}(a, c)=1$. Find $100 a+10 b+c$.	{ "answer": "2852", "ground_truth": null, "style": null, "task_type": "math" }
Mario has a deck of seven pairs of matching number cards and two pairs of matching Jokers, for a total of 18 cards. He shuffles the deck, then draws the cards from the top one by one until he holds a pair of matching Jokers. The expected number of complete pairs that Mario holds at the end (including the Jokers) is $\frac{m}{n}$, where $m, n$ are positive integers and $\operatorname{gcd}(m, n)=1$. Find $100 m+n$.	{ "answer": "1003", "ground_truth": null, "style": null, "task_type": "math" }
Alec wishes to construct a string of 6 letters using the letters A, C, G, and N, such that: - The first three letters are pairwise distinct, and so are the last three letters; - The first, second, fourth, and fifth letters are pairwise distinct. In how many ways can he construct the string?	{ "answer": "96", "ground_truth": null, "style": null, "task_type": "math" }
Lunasa, Merlin, and Lyrica each have a distinct hat. Every day, two of these three people, selected randomly, switch their hats. What is the probability that, after 2017 days, every person has their own hat back?	{ "answer": "0", "ground_truth": null, "style": null, "task_type": "math" }
Circle $\omega$ is inscribed in rhombus $H M_{1} M_{2} T$ so that $\omega$ is tangent to $\overline{H M_{1}}$ at $A, \overline{M_{1} M_{2}}$ at $I, \overline{M_{2} T}$ at $M$, and $\overline{T H}$ at $E$. Given that the area of $H M_{1} M_{2} T$ is 1440 and the area of $E M T$ is 405 , find the area of $A I M E$.	{ "answer": "540", "ground_truth": null, "style": null, "task_type": "math" }
Let $p_{i}$ be the $i$th prime. Let $$f(x)=\sum_{i=1}^{50} p_{i} x^{i-1}=2+3x+\cdots+229x^{49}$$ If $a$ is the unique positive real number with $f(a)=100$, estimate $A=\lfloor 100000a\rfloor$. An estimate of $E$ will earn $\max (0,\lfloor 20-\|A-E\| / 250\rfloor)$ points.	{ "answer": "83601", "ground_truth": null, "style": null, "task_type": "math" }
A box contains three balls, each of a different color. Every minute, Randall randomly draws a ball from the box, notes its color, and then returns it to the box. Consider the following two conditions: (1) Some ball has been drawn at least three times (not necessarily consecutively). (2) Every ball has been drawn at least once. What is the probability that condition (1) is met before condition (2)?	{ "answer": "\\frac{13}{27}", "ground_truth": null, "style": null, "task_type": "math" }
In quadrilateral $ABCD$, there exists a point $E$ on segment $AD$ such that $\frac{AE}{ED}=\frac{1}{9}$ and $\angle BEC$ is a right angle. Additionally, the area of triangle $CED$ is 27 times more than the area of triangle $AEB$. If $\angle EBC=\angle EAB, \angle ECB=\angle EDC$, and $BC=6$, compute the value of $AD^{2}$.	{ "answer": "320", "ground_truth": null, "style": null, "task_type": "math" }
The skeletal structure of circumcircumcircumcoronene, a hydrocarbon with the chemical formula $\mathrm{C}_{150} \mathrm{H}_{30}$, is shown below. Each line segment between two atoms is at least a single bond. However, since each carbon (C) requires exactly four bonds connected to it and each hydrogen $(\mathrm{H})$ requires exactly one bond, some of the line segments are actually double bonds. How many arrangements of single/double bonds are there such that the above requirements are satisfied? If the correct answer is $C$ and your answer is $A$, you get $\max \left(\left\lfloor 30\left(1-\left\|\log _{\log _{2} C} \frac{A}{C}\right\|\right)\right\rfloor, 0\right)$ points.	{ "answer": "267227532", "ground_truth": null, "style": null, "task_type": "math" }
Five people of heights $65,66,67,68$, and 69 inches stand facing forwards in a line. How many orders are there for them to line up, if no person can stand immediately before or after someone who is exactly 1 inch taller or exactly 1 inch shorter than himself?	{ "answer": "14", "ground_truth": null, "style": null, "task_type": "math" }
On a $3 \times 3$ chessboard, each square contains a Chinese knight with $\frac{1}{2}$ probability. What is the probability that there are two Chinese knights that can attack each other? (In Chinese chess, a Chinese knight can attack any piece which is two squares away from it in a particular direction and one square away in a perpendicular direction, under the condition that there is no other piece immediately adjacent to it in the first direction.)	{ "answer": "\\frac{79}{256}", "ground_truth": null, "style": null, "task_type": "math" }
Estimate the sum of all the prime numbers less than $1,000,000$. If the correct answer is $X$ and you write down $A$, your team will receive $\min \left(\left\lfloor\frac{25 X}{A}\right\rfloor,\left\lfloor\frac{25 A}{X}\right\rfloor\right)$ points, where $\lfloor x\rfloor$ is the largest integer less than or equal to $x$.	{ "answer": "37550402023", "ground_truth": null, "style": null, "task_type": "math" }
Triangle $A B C$ is given with $A B=13, B C=14, C A=15$. Let $E$ and $F$ be the feet of the altitudes from $B$ and $C$, respectively. Let $G$ be the foot of the altitude from $A$ in triangle $A F E$. Find $A G$.	{ "answer": "\\frac{396}{65}", "ground_truth": null, "style": null, "task_type": "math" }
How many 8-digit numbers begin with 1 , end with 3 , and have the property that each successive digit is either one more or two more than the previous digit, considering 0 to be one more than 9 ?	{ "answer": "21", "ground_truth": null, "style": null, "task_type": "math" }
Rebecca has twenty-four resistors, each with resistance 1 ohm. Every minute, she chooses any two resistors with resistance of $a$ and $b$ ohms respectively, and combine them into one by one of the following methods: - Connect them in series, which produces a resistor with resistance of $a+b$ ohms; - Connect them in parallel, which produces a resistor with resistance of $\frac{a b}{a+b}$ ohms; - Short-circuit one of the two resistors, which produces a resistor with resistance of either $a$ or $b$ ohms. Suppose that after twenty-three minutes, Rebecca has a single resistor with resistance $R$ ohms. How many possible values are there for $R$ ? If the correct answer is $C$ and your answer is $A$, you get $\max \left(\left\lfloor 30\left(1-\left\|\log _{\log _{2} C} \frac{A}{C}\right\|\right)\right\rfloor, 0\right)$ points.	{ "answer": "1015080877", "ground_truth": null, "style": null, "task_type": "math" }
Find the minimum positive integer $k$ such that $f(n+k) \equiv f(n)(\bmod 23)$ for all integers $n$.	{ "answer": "2530", "ground_truth": null, "style": null, "task_type": "math" }
In a plane, equilateral triangle $A B C$, square $B C D E$, and regular dodecagon $D E F G H I J K L M N O$ each have side length 1 and do not overlap. Find the area of the circumcircle of $\triangle A F N$.	{ "answer": "(2+\\sqrt{3}) \\pi", "ground_truth": null, "style": null, "task_type": "math" }
The skeletal structure of coronene, a hydrocarbon with the chemical formula $\mathrm{C}_{24} \mathrm{H}_{12}$, is shown below. Each line segment between two atoms is at least a single bond. However, since each carbon (C) requires exactly four bonds connected to it and each hydrogen $(\mathrm{H})$ requires exactly one bond, some of the line segments are actually double bonds. How many arrangements of single/double bonds are there such that the above requirements are satisfied?	{ "answer": "20", "ground_truth": null, "style": null, "task_type": "math" }
Side $\overline{A B}$ of $\triangle A B C$ is the diameter of a semicircle, as shown below. If $A B=3+\sqrt{3}, B C=3 \sqrt{2}$, and $A C=2 \sqrt{3}$, then the area of the shaded region can be written as $\frac{a+(b+c \sqrt{d}) \pi}{e}$, where $a, b, c, d, e$ are integers, $e$ is positive, $d$ is square-free, and $\operatorname{gcd}(a, b, c, e)=1$. Find $10000 a+1000 b+100 c+10 d+e$.	{ "answer": "147938", "ground_truth": null, "style": null, "task_type": "math" }
Let $n$ be a fixed positive integer. Determine the smallest possible rank of an $n \times n$ matrix that has zeros along the main diagonal and strictly positive real numbers off the main diagonal.	{ "answer": "3", "ground_truth": null, "style": null, "task_type": "math" }
A string of digits is defined to be similar to another string of digits if it can be obtained by reversing some contiguous substring of the original string. For example, the strings 101 and 110 are similar, but the strings 3443 and 4334 are not. (Note that a string is always similar to itself.) Consider the string of digits $$S=01234567890123456789012345678901234567890123456789$$ consisting of the digits from 0 to 9 repeated five times. How many distinct strings are similar to $S$ ?	{ "answer": "1126", "ground_truth": null, "style": null, "task_type": "math" }
Let $a$ be the proportion of teams that correctly answered problem 1 on the Guts round. Estimate $A=\lfloor 10000a\rfloor$. An estimate of $E$ earns $\max (0,\lfloor 20-\|A-E\| / 20\rfloor)$ points. If you have forgotten, question 1 was the following: Two hexagons are attached to form a new polygon $P$. What is the minimum number of sides that $P$ can have?	{ "answer": "2539", "ground_truth": null, "style": null, "task_type": "math" }
Today, Ivan the Confessor prefers continuous functions $f:[0,1] \rightarrow \mathbb{R}$ satisfying $f(x)+f(y) \geq\|x-y\|$ for all pairs $x, y \in[0,1]$. Find the minimum of $\int_{0}^{1} f$ over all preferred functions.	{ "answer": "\\frac{1}{4}", "ground_truth": null, "style": null, "task_type": "math" }
Determine the remainder when $$2^{\frac{1 \cdot 2}{2}}+2^{\frac{2 \cdot 3}{2}}+\cdots+2^{\frac{2011 \cdot 2012}{2}}$$ is divided by 7.	{ "answer": "1", "ground_truth": null, "style": null, "task_type": "math" }
A standard deck of 54 playing cards (with four cards of each of thirteen ranks, as well as two Jokers) is shuffled randomly. Cards are drawn one at a time until the first queen is reached. What is the probability that the next card is also a queen?	{ "answer": "\\frac{2}{27}", "ground_truth": null, "style": null, "task_type": "math" }
An ant starts at the origin of a coordinate plane. Each minute, it either walks one unit to the right or one unit up, but it will never move in the same direction more than twice in the row. In how many different ways can it get to the point $(5,5)$ ?	{ "answer": "84", "ground_truth": null, "style": null, "task_type": "math" }
Define the function $f: \mathbb{R} \rightarrow \mathbb{R}$ by $$f(x)= \begin{cases}\frac{1}{x^{2}+\sqrt{x^{4}+2 x}} & \text { if } x \notin(-\sqrt[3]{2}, 0] \\ 0 & \text { otherwise }\end{cases}$$ The sum of all real numbers $x$ for which $f^{10}(x)=1$ can be written as $\frac{a+b \sqrt{c}}{d}$, where $a, b, c, d$ are integers, $d$ is positive, $c$ is square-free, and $\operatorname{gcd}(a, b, d)=1$. Find $1000 a+100 b+10 c+d$.	{ "answer": "932", "ground_truth": null, "style": null, "task_type": "math" }
Let $n$ be an integer and $$m=(n-1001)(n-2001)(n-2002)(n-3001)(n-3002)(n-3003)$$ Given that $m$ is positive, find the minimum number of digits of $m$.	{ "answer": "11", "ground_truth": null, "style": null, "task_type": "math" }
Ainsley and Buddy play a game where they repeatedly roll a standard fair six-sided die. Ainsley wins if two multiples of 3 in a row are rolled before a non-multiple of 3 followed by a multiple of 3, and Buddy wins otherwise. If the probability that Ainsley wins is $\frac{a}{b}$ for relatively prime positive integers $a$ and $b$, compute $100a+b$.	{ "answer": "109", "ground_truth": null, "style": null, "task_type": "math" }
Suppose that there are real numbers $a, b, c \geq 1$ and that there are positive reals $x, y, z$ such that $$\begin{aligned} a^{x}+b^{y}+c^{z} & =4 \\ x a^{x}+y b^{y}+z c^{z} & =6 \\ x^{2} a^{x}+y^{2} b^{y}+z^{2} c^{z} & =9 \end{aligned}$$ What is the maximum possible value of $c$ ?	{ "answer": "\\sqrt[3]{4}", "ground_truth": null, "style": null, "task_type": "math" }
Compute the number of positive integers less than 10! which can be expressed as the sum of at most 4 (not necessarily distinct) factorials.	{ "answer": "648", "ground_truth": null, "style": null, "task_type": "math" }
In a regular pentagon $PQRST$, what is the measure of $\angle PRS$?	{ "answer": "72^{\\circ}", "ground_truth": null, "style": null, "task_type": "math" }
The odd numbers from 5 to 21 are used to build a 3 by 3 magic square. If 5, 9 and 17 are placed as shown, what is the value of $x$?	{ "answer": "11", "ground_truth": null, "style": null, "task_type": "math" }
The line with equation $y = 3x + 5$ is translated 2 units to the right. What is the equation of the resulting line?	{ "answer": "y = 3x - 1", "ground_truth": null, "style": null, "task_type": "math" }
If $ N $ is the smallest positive integer whose digits have a product of 2700, what is the sum of the digits of $ N $?	{ "answer": "27", "ground_truth": null, "style": null, "task_type": "math" }
The points $P(3,-2), Q(3,1), R(7,1)$, and $S$ form a rectangle. What are the coordinates of $S$?	{ "answer": "(7,-2)", "ground_truth": null, "style": null, "task_type": "math" }
There are 400 students at Pascal H.S., where the ratio of boys to girls is $3: 2$. There are 600 students at Fermat C.I., where the ratio of boys to girls is $2: 3$. What is the ratio of boys to girls when considering all students from both schools?	{ "answer": "12:13", "ground_truth": null, "style": null, "task_type": "math" }
There are $F$ fractions $\frac{m}{n}$ with the properties: $m$ and $n$ are positive integers with $m<n$, $\frac{m}{n}$ is in lowest terms, $n$ is not divisible by the square of any integer larger than 1, and the shortest sequence of consecutive digits that repeats consecutively and indefinitely in the decimal equivalent of $\frac{m}{n}$ has length 6. We define $G=F+p$, where the integer $F$ has $p$ digits. What is the sum of the squares of the digits of $G$?	{ "answer": "181", "ground_truth": null, "style": null, "task_type": "math" }
Carina is in a tournament in which no game can end in a tie. She continues to play games until she loses 2 games, at which point she is eliminated and plays no more games. The probability of Carina winning the first game is $rac{1}{2}$. After she wins a game, the probability of Carina winning the next game is $rac{3}{4}$. After she loses a game, the probability of Carina winning the next game is $rac{1}{3}$. What is the probability that Carina wins 3 games before being eliminated from the tournament?	{ "answer": "23", "ground_truth": null, "style": null, "task_type": "math" }
If $\cos 60^{\circ} = \cos 45^{\circ} \cos \theta$ with $0^{\circ} \leq \theta \leq 90^{\circ}$, what is the value of $\theta$?	{ "answer": "45^{\\circ}", "ground_truth": null, "style": null, "task_type": "math" }
A set consists of five different odd positive integers, each greater than 2. When these five integers are multiplied together, their product is a five-digit integer of the form $AB0AB$, where $A$ and $B$ are digits with $A \neq 0$ and $A \neq B$. (The hundreds digit of the product is zero.) For example, the integers in the set $\{3,5,7,13,33\}$ have a product of 45045. In total, how many different sets of five different odd positive integers have these properties?	{ "answer": "24", "ground_truth": null, "style": null, "task_type": "math" }
What is the ratio of the area of square $WXYZ$ to the area of square $PQRS$ if $PQRS$ has side length 2 and $W, X, Y, Z$ are the midpoints of the sides of $PQRS$?	{ "answer": "1: 2", "ground_truth": null, "style": null, "task_type": "math" }
In a cafeteria line, the number of people ahead of Kaukab is equal to two times the number of people behind her. There are $n$ people in the line. What is a possible value of $n$?	{ "answer": "25", "ground_truth": null, "style": null, "task_type": "math" }
How many different-looking arrangements are possible when four balls are selected at random from six identical red balls and three identical green balls and then arranged in a line?	{ "answer": "15", "ground_truth": null, "style": null, "task_type": "math" }
Wayne has 3 green buckets, 3 red buckets, 3 blue buckets, and 3 yellow buckets. He randomly distributes 4 hockey pucks among the green buckets, with each puck equally likely to be put in each bucket. Similarly, he distributes 3 pucks among the red buckets, 2 pucks among the blue buckets, and 1 puck among the yellow buckets. What is the probability that a green bucket contains more pucks than each of the other 11 buckets?	{ "answer": "\\frac{89}{243}", "ground_truth": null, "style": null, "task_type": "math" }
If $\triangle PQR$ is right-angled at $P$ with $PR=12$, $SQ=11$, and $SR=13$, what is the perimeter of $\triangle QRS$?	{ "answer": "44", "ground_truth": null, "style": null, "task_type": "math" }
In an equilateral triangle $\triangle PRS$, if $QS=QT$ and $\angle QTS=40^\circ$, what is the value of $x$?	{ "answer": "80", "ground_truth": null, "style": null, "task_type": "math" }
A sequence has terms $a_{1}, a_{2}, a_{3}, \ldots$. The first term is $a_{1}=x$ and the third term is $a_{3}=y$. The terms of the sequence have the property that every term after the first term is equal to 1 less than the sum of the terms immediately before and after it. What is the sum of the first 2018 terms in the sequence?	{ "answer": "2x+y+2015", "ground_truth": null, "style": null, "task_type": "math" }
A robotic grasshopper jumps 1 cm to the east, then 2 cm to the north, then 3 cm to the west, then 4 cm to the south. After every fourth jump, the grasshopper restarts the sequence of jumps: 1 cm to the east, then 2 cm to the north, then 3 cm to the west, then 4 cm to the south. After a total of $n$ jumps, the position of the grasshopper is 162 cm to the west and 158 cm to the south of its original position. What is the sum of the squares of the digits of $n$?	{ "answer": "22", "ground_truth": null, "style": null, "task_type": "math" }
A solid wooden rectangular prism measures $3 \times 5 \times 12$. The prism is cut in half by a vertical cut through four vertices, creating two congruent triangular-based prisms. What is the surface area of one of these triangular-based prisms?	{ "answer": "150", "ground_truth": null, "style": null, "task_type": "math" }
Zebadiah has 3 red shirts, 3 blue shirts, and 3 green shirts in a drawer. Without looking, he randomly pulls shirts from his drawer one at a time. What is the minimum number of shirts that Zebadiah has to pull out to guarantee that he has a set of shirts that includes either 3 of the same colour or 3 of different colours?	{ "answer": "5", "ground_truth": null, "style": null, "task_type": "math" }
Let $r = \sqrt{\frac{\sqrt{53}}{2} + \frac{3}{2}}$. There is a unique triple of positive integers $(a, b, c)$ such that $r^{100} = 2r^{98} + 14r^{96} + 11r^{94} - r^{50} + ar^{46} + br^{44} + cr^{40}$. What is the value of $a^{2} + b^{2} + c^{2}$?	{ "answer": "15339", "ground_truth": null, "style": null, "task_type": "math" }

Subsets and Splits

No community queries yet

The top public SQL queries from the community will appear here once available.