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Difference between revisions of "2022 AIME II Problems/Problem 4"

(Solution)
(Solution)
Line 6: Line 6:
 
We could assume a variable <math>v</math> which equals to both <math>\log_{20x} (22x)</math> and <math>\log_{2x} (202x)</math>.
 
We could assume a variable <math>v</math> which equals to both <math>\log_{20x} (22x)</math> and <math>\log_{2x} (202x)</math>.
  
So that <math>(20x)^v=22x </math> (Eq1)
+
So that <math>(20x)^v=22x \textcircled{1}</math>
and <math>(2x)^v=202x </math> (Eq2)
+
and <math>(2x)^v=202x \textcircled{2}</math>
  
Express Eq1 as: <math>(20x)^v=(2x \cdot 10)^v=(2x)^v \cdot (10^v)=22x </math> (Eq3)
+
Express <math>\textcircled{1}</math> as: <math>(20x)^v=(2x \cdot 10)^v=(2x)^v \cdot (10^v)=22x \textcircled{3}</math>
  
Substitute Eq2 to Eq3: <math>202x \cdot (10^v)=22x</math>
+
Substitute <math>\textcircled{2}</math> to <math>\textcircled{3}</math>: <math>202x \cdot (10^v)=22x</math>
  
 
Thus, <math>v=\log_{10} (\tfrac{22x}{202x})= \log_{10} (\tfrac{11}{101})</math>, where <math>m=11</math> and <math>n=101</math>.
 
Thus, <math>v=\log_{10} (\tfrac{22x}{202x})= \log_{10} (\tfrac{11}{101})</math>, where <math>m=11</math> and <math>n=101</math>.

Revision as of 22:36, 17 February 2022

Problem

There is a positive real number $x$ not equal to either $\tfrac{1}{20}$ or $\tfrac{1}{2}$ such that\[\log_{20x} (22x)=\log_{2x} (202x).\]The value $\log_{20x} (22x)$ can be written as $\log_{10} (\tfrac{m}{n})$, where $m$ and $n$ are relatively prime positive integers. Find $m+n$.

Solution

We could assume a variable $v$ which equals to both $\log_{20x} (22x)$ and $\log_{2x} (202x)$.

So that $(20x)^v=22x \textcircled{1}$ and $(2x)^v=202x \textcircled{2}$

Express $\textcircled{1}$ as: $(20x)^v=(2x \cdot 10)^v=(2x)^v \cdot (10^v)=22x \textcircled{3}$

Substitute $\textcircled{2}$ to $\textcircled{3}$: $202x \cdot (10^v)=22x$

Thus, $v=\log_{10} (\tfrac{22x}{202x})= \log_{10} (\tfrac{11}{101})$, where $m=11$ and $n=101$.

Therefore, $m+n = \boxed{112}$.

~DSAERF-CALMIT

See Also

2022 AIME II (ProblemsAnswer KeyResources)
Preceded by
Problem 3 		Followed by
Problem 5
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
All AIME Problems and Solutions

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