Difference between revisions of "2023 SSMO Team Round Problems"
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==Problem 13== | ==Problem 13== | ||
− | Let <math>D(n)</math> denote the product of all divisors of <math>n</math> Let <math>P(i,j)</math> denote the set of all integers that are both a multiple of <math>i</math> and a factor of <math>j.</math> Let | + | Let <math>D(n)</math> denote the product of all divisors of <math>n</math> Let <math>P(i,j)</math> denote the set of all integers that are both a multiple of <math>i</math> and a factor of <math>j.</math>Let |
\[ | \[ | ||
-F(a) = \sqrt{\left|\log_{10}\left(\frac{D(10^{a})}{\prod_{\omega\in P(10^2,10^{a+2})}\omega}\right)\right|}\text{ and }G(n) = \sqrt[n-1]{\prod_{i=2}^{n}10^{F(i)}}. | -F(a) = \sqrt{\left|\log_{10}\left(\frac{D(10^{a})}{\prod_{\omega\in P(10^2,10^{a+2})}\omega}\right)\right|}\text{ and }G(n) = \sqrt[n-1]{\prod_{i=2}^{n}10^{F(i)}}. | ||
− | \] | + | \]<math> |
− | Suppose <math>\sum_{k=2}^{\infty}G(k)< | + | Suppose </math>\sum_{k=2}^{\infty}G(k)<math> is </math>\frac{a+b\sqrt{c}}{d}<math>. Find the value of </math>a+b+c+d$. |
[[2022 SSMO Team Round Problems/Problem 13|Solution]] | [[2022 SSMO Team Round Problems/Problem 13|Solution]] | ||
+ | |||
==Problem 14== | ==Problem 14== | ||
Latest revision as of 01:14, 3 January 2024
Contents
Problem 1
Let be a permutation of . Find the largest possible value of
Problem 2
A plane and a car start both move northward. The car moves northbound at 60 miles per hour. The plane moves northeast and increases in altitude at an angle of Let the speed in feet per second that the plane must fly at to move north at the same speed as the car. Find .
Problem 3
Let be a triangle such that and Let be the circumcircle of . Let be on the circle such that Let be the point diametrically opposite of . Let be the point diametrically opposite . Find the area of the quadrilateral in terms of a mixed number . Find .
Problem 4
Find the sum of values for prime such that
Problem 5
Joshy is playing a game with a dartboard that has two sections. If Joshy hits the first section, he gets points, and if he hits the second section, he gets points. Assume Joshy always hits one of the two sections. Let be the maximum value that Joshy cannot achieve. Let be the number of positive integer scores Joshy cannot achieve. Let be the number of ways for Joshy to achieve points. Find .
Problem 6
Suppose that are positive reals satisfying Find the sum of all possible values of If you believe there are no solutions, put as your answer. If you believe the sum is infinity, put as your answer.
Problem 7
Let and let there be randomly chosen sets where . The probability that can be expressed as . Let be the largest power of such . Find .
Problem 8
Three rabbits run away from the origin at the same speed and constant velocity such that the angle between any two rabbits' directions is . After seconds, a hunter with a speed times that of the rabbits runs from the origin. Let the minimal time in seconds needed for her to meet (and subsequently) catch all three rabbits be . Find .
Problem 9
Let , , and be the total number of possible moves for a bishop, knight, or rook from any position of a by grid. Find .
(A bishop moves along diagonals, a rook moves along rows, and a knight moves in the form of a "L" shape)
Problem 10
There exists a lane of infinite cars. Each car has a chance of being high quality and a chance of being low quality. John goes down the row of cars buying high-quality cars. However, after John sees 3 low-quality cars, he gives up on buying additional cars. Let the probability that he buys at least cars before giving up as . Find .
Problem 11
Let be a cyclic quadrilateral such that is the diameter. Let be the orthocenter of . Define , and . If , , and , suppose Find .
Problem 12
Let be the set of rationals of the form for nonnegative and . Define the function such that, for such is minimal, we have that
Suppose equals . Find .
Problem 13
Let denote the product of all divisors of Let denote the set of all integers that are both a multiple of and a factor of Let \[ -F(a) = \sqrt{\left|\log_{10}\left(\frac{D(10^{a})}{\prod_{\omega\in P(10^2,10^{a+2})}\omega}\right)\right|}\text{ and }G(n) = \sqrt[n-1]{\prod_{i=2}^{n}10^{F(i)}}. \]\sum_{k=2}^{\infty}G(k)\frac{a+b\sqrt{c}}{d}a+b+c+d$.
Problem 14
Find the sum of all perfect squares of the form where and are positive integers such is prime and .
Problem 15
Consider a piece of paper in the shape of a regular pentagon with sidelength We fold it in half. We then fold it such that the vertices of the longest side become the same side. The area of the folded figure can be expressed as where are integers and is squarefree. Find (For convenience, note that )