Difference between revisions of "AIME 2020(MOCK) Problems"

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Let <math>N</math> be <math>112123123412345... (1000 digits)</math>. What is the remainder when <math>N</math> is divided by <math>21</math>?
 
Let <math>N</math> be <math>112123123412345... (1000 digits)</math>. What is the remainder when <math>N</math> is divided by <math>21</math>?
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==Problem 2==
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Let <math>K</math> be a set of polynomials <math>P(x)</math> with integral coefficients such that the roots of <math>P(x)</math> are <math>cos \frac{\pi}{7}</math>, <math>cos \frac{\pi}{11}</math>, and <math>cos \frac{\pi}{17}</math>. What is the least possible sum of the coefficients of <math>P(x)</math>?
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==Problem 3==
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How many <math>15</math> digit base <math>5</math> positive integers consist of exactly <math>2</math> pairs of consecutive <math>0</math>s but no <math>4</math> consecutive <math>3</math>s?
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==Problem 4==
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Let <math>\lfloor\x\rfloor</math> denote the greatest integer less than or equal to <math>x</math>. What is the tens digit of <math>\lfloor\frac{10^{2020}}{10^{101} + 7}\rfloor</math>

Latest revision as of 05:45, 23 December 2020

Problem 1

Let $N$ be $112123123412345... (1000 digits)$. What is the remainder when $N$ is divided by $21$?


Problem 2

Let $K$ be a set of polynomials $P(x)$ with integral coefficients such that the roots of $P(x)$ are $cos \frac{\pi}{7}$, $cos \frac{\pi}{11}$, and $cos \frac{\pi}{17}$. What is the least possible sum of the coefficients of $P(x)$?


Problem 3

How many $15$ digit base $5$ positive integers consist of exactly $2$ pairs of consecutive $0$s but no $4$ consecutive $3$s?


Problem 4

Let $\lfloor\x\rfloor$ (Error compiling LaTeX. Unknown error_msg) denote the greatest integer less than or equal to $x$. What is the tens digit of $\lfloor\frac{10^{2020}}{10^{101} + 7}\rfloor$