Difference between revisions of "1973 IMO Problems/Problem 5"
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Using our first observation, <math>\frac{a_2 b_1 + b_2 - a_1 b_2 - b_1}{a_1 a_2}=0</math>. Rearranging, we get <math>\frac{b_1}{a_1-1}=\frac{b_2}{a_2-1}</math>. Therefore, the fixed point of <math>f_1</math> equals the fixed point of <math>f_2</math>. Since we made no assumptions about <math>f_1</math> and <math>f_2</math>, this is true for all <math>f</math> in <math>G</math>. | Using our first observation, <math>\frac{a_2 b_1 + b_2 - a_1 b_2 - b_1}{a_1 a_2}=0</math>. Rearranging, we get <math>\frac{b_1}{a_1-1}=\frac{b_2}{a_2-1}</math>. Therefore, the fixed point of <math>f_1</math> equals the fixed point of <math>f_2</math>. Since we made no assumptions about <math>f_1</math> and <math>f_2</math>, this is true for all <math>f</math> in <math>G</math>. | ||
− | Borrowed from http://www.cs.cornell.edu/~asdas/imo/imo/isoln/isoln735.html | + | Borrowed from [http://www.cs.cornell.edu/~asdas/imo/imo/isoln/isoln735.html] |
+ | |||
+ | == See Also == {{IMO box|year=1973|num-b=4|num-a=6}} |
Latest revision as of 14:51, 29 January 2021
is a set of non-constant functions of the real variable of the form and has the following properties:
(a) If and are in , then is in ; here .
(b) If is in , then its inverse is in ; here the inverse of is .
(c) For every in , there exists a real number such that .
Prove that there exists a real number such that for all in .
Solution
First, observe that for each function in , if then . This is a result of (c); for example, could not be in because it does not have a fixed point. Or if , then every point is a fixed point.
Also, for each function in , if then the fixed point of is where intersects , namely where .
Now, take and , both in . By (a), and must also both be in . By (b), must also be in . Finally, by (a),
must also be in .
Using our first observation, . Rearranging, we get . Therefore, the fixed point of equals the fixed point of . Since we made no assumptions about and , this is true for all in .
Borrowed from [1]
See Also
1973 IMO (Problems) • Resources | ||
Preceded by Problem 4 |
1 • 2 • 3 • 4 • 5 • 6 | Followed by Problem 6 |
All IMO Problems and Solutions |