Difference between revisions of "1988 AIME Problems/Problem 8"
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Calculate <math>f(14,52)</math>. | Calculate <math>f(14,52)</math>. | ||
− | == Solution 1 (Algebra | + | == Solution 1 (Algebra) == |
Let <math>z = x+y</math>. By the substitution <math>z=x+y,</math> we rewrite the third property in terms of <math>x</math> and <math>z,</math> then solve for <math>f(x,z):</math> | Let <math>z = x+y</math>. By the substitution <math>z=x+y,</math> we rewrite the third property in terms of <math>x</math> and <math>z,</math> then solve for <math>f(x,z):</math> | ||
<cmath>\begin{align*} | <cmath>\begin{align*} | ||
Line 33: | Line 33: | ||
Repeating the process several times, | Repeating the process several times, | ||
− | <cmath>\begin{ | + | <cmath>\begin{align*} |
− | f(14,52) & = | + | f(14,52) & = f(14,14 + 38) \\ |
− | & = | + | & = \frac{52}{38}\cdot f(14,38) \\ |
− | & = | + | & = \frac{52}{38}\cdot \frac{38}{24}\cdot f(14,14 + 24) \\ |
− | & = | + | & = \frac{52}{24}\cdot f(14,24) \\ |
− | & = | + | & = \frac{52}{10}\cdot f(10,14) \\ |
− | & = | + | & = \frac{52}{10}\cdot \frac{14}{4}\cdot f(10,4) \\ |
− | & = | + | & = \frac{91}{5}\cdot f(4,10) \\ |
− | & = | + | & = \frac{91}{3}\cdot f(4,6) \\ |
− | & = | + | & = 91\cdot f(2,4) \\ |
− | & = | + | & = 91\cdot 2 \cdot f(2,2) \\ |
− | & = | + | & = \boxed{364}. |
− | \end{ | + | \end{align*}</cmath> |
− | </cmath> | ||
==Solution 3 (Number Theory)== | ==Solution 3 (Number Theory)== |
Latest revision as of 12:24, 12 October 2021
Contents
Problem
The function , defined on the set of ordered pairs of positive integers, satisfies the following properties: Calculate .
Solution 1 (Algebra)
Let . By the substitution we rewrite the third property in terms of and then solve for Using the properties of we have ~MRENTHUSIASM (credit given to AoPS)
Solution 2 (Algebra)
Since all of the function's properties contain a recursive definition except for the first one, we know that in order to obtain an integer answer. So, we have to transform to this form by exploiting the other properties. The second one doesn't help us immediately, so we will use the third one.
Note that
Repeating the process several times,
Solution 3 (Number Theory)
Notice that satisfies all three properties:
For the first two properties, it is clear that and .
For the third property, using the identities and gives Hence, is a solution to the functional equation.
Since this is an AIME problem, there is exactly one correct answer, and thus, exactly one possible value of .
Therefore, we have
See also
1988 AIME (Problems • Answer Key • Resources) | ||
Preceded by Problem 7 |
Followed by Problem 9 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.