2022 SSMO Relay Round 1 Problems
Contents
Problem 1
Suppose are distinct digits where such that where . Find .
Problem 2
Let TNYWR. Now, let and have equations and respectively. Suppose that is a point on such that the shortest distance from to is . Given that is a point on such that and is a point on such that , find
Problem 3
Let TNYWR. Now, let a triangle such that , and Find the remainder when the product of all possible values of is divided by .
Problem 1
Bobby is bored one day and flips a fair coin until it lands on tails. Bobby wins if the coin lands on heads a positive even number of times in the sequence of tosses. Then the probability that Bobby wins can be expressed in the form , where and are relatively prime positive integers. Find .
Problem 2
A bag is big enough to hold exactly 6 large pencils, 12 medium pencils, or 30 small pencils, with no space left over. Given that there is 1 large pencil and 3 medium pencils currently in the bag, what is the maximum number of small pencils that may be added to the bag? Note that there may still be space left over in the bag.
Problem 3
Let be a parallelogram such that is a point on such that Suppose that and intersect at If the area of triangle is find the area of .
Problem 4
Consider a quadrilateral with area and satisfying . There exists a point in 3D space such that the distances from to , , , and are all equal to . Find the volume of .
Problem 5
Let be a square such that is on and is on If and then the value of can be expressed as , where and are relatively prime positive integers. Find .
Problem 6
At the beginning of day , there is a single bacterium in a petri dish. During each day, each bacterium in the petri dish divides into new bacteria, and bacteria are added to the petri dish (these bacteria do not divide on the day they were added). For example, at the end of day , there are bacteria in the petri dish. If, at the end of day , the number of bacteria in the petri dish is a multiple of , find the minimum possible value of .
Problem 7
Let . Define as the image of under a rotation of either , , or clockwise about the origin, with each choice having a chance of being selected. Find the expected value of the smallest positive integer such that coincides with .
Problem 8
How many positive integers cannot be written as , where , , and are positive integers (not necessarily distinct)?
Problem 9
Consider a triangle such that , , and a square such that and lie on , lies on , and lies on . Suppose further that , , , and are distinct from , , and . Let be the center of . If intersects at , then the sum of all values of can be expressed as , where and are relatively prime positive integers. Find .
Problem 10
Let be the set of all numbers for which the element in is the sum of the triangular number and the positive perfect square. Let be the set which contains all unique remainders when the elements in are divided by . Find the number of elements in .