Difference between revisions of "2016 APMO Problems/Problem 5"
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− | This gives us the power to compute <math>f(1)</math>. From <math>P(1,1,1)</math> we get <math>f(f(1)+1)=f(2)</math> and injectivity gives <math>f(1)=1</math>. Showing that <math>f</math> is unbounded above is also easy as we can fix <math>(x,y)</math> and let <math>z</math> blow up to <math>\infty</math>. | + | This gives us the power to compute <math>f(1)</math>. From <math>P(1,1,1)</math> we get <math>f(f(1)+1)=f(2)</math> and injectivity gives <math>f(1)=1</math>. Showing that <math>f</math> is unbounded above is also easy as we can fix <math>(x,y)</math> and let <math>z</math> blow up to <math>\infty</math> in the original Functional equation.. |
Revision as of 05:53, 13 July 2021
Problem
Find all functions such that for all positive real numbers .
Solution
We claim that is the only solution. It is easy to check that it works. Now, we will break things down in several claims. Let be the assertion to the Functional Equation.
Claim 1: is injective.
Proof: Assume for some . Now, from and we have:
Now comparing, we have as desired.
This gives us the power to compute . From we get and injectivity gives . Showing that is unbounded above is also easy as we can fix and let blow up to in the original Functional equation..
Claim 2: is surjective.
Proof: gives
This gives that . Putting , we get . By induction, surjectivity is proved as and we are essentially done.