Difference between revisions of "1960 IMO Problems/Problem 2"
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<cmath>\sqrt{2x + 1} < \frac{7}{2}.</cmath> | <cmath>\sqrt{2x + 1} < \frac{7}{2}.</cmath> | ||
− | So <math>2x + 1 < 49/4</math> and therefore <math>x < 45/8</math>. But | + | So <math>2x + 1 < 49/4</math> and therefore <math>x < 45/8</math>. But if <math>x < -1/2</math> then the inequality makes no sense, since <math>\sqrt{2x + 1}</math> is imaginary. So the original inequality holds iff <math>x</math> is in <math>[-1/2, 0) \cup (0, 45/8).</math> |
==See Also== | ==See Also== |
Latest revision as of 04:51, 7 April 2024
Contents
Problem
For what values of the variable does the following inequality hold:
Solution
Set , where .
After simplifying, we get
So
Which gives and hence .
But makes the LHS indeterminate.
So, answer: , except .
Solution 2
If , then the LHS is defined and rewrites as follows:
\begin{align*} \frac{4x^2}{(1 - \sqrt{2x + 1})^2} &= \biggl(\frac{2x}{1 - \sqrt{2x + 1}}\biggl)^2 \\ &= \biggl( \frac{2x}{1 - \sqrt{2x + 1}} \cdot \frac{1 + \sqrt{2x + 1}}{1 + \sqrt{2x + 1}} \biggl)^2 \\ &= (1 + \sqrt{2x + 1})^2 \\ &= 2x + 2\sqrt{2x + 1} + 2. \end{align*}
The inequality therefore holds if and only if or
So and therefore . But if then the inequality makes no sense, since is imaginary. So the original inequality holds iff is in
See Also
1960 IMO (Problems) • Resources | ||
Preceded by Problem 1 |
1 • 2 • 3 • 4 • 5 • 6 | Followed by Problem 3 |
All IMO Problems and Solutions |