Difference between revisions of "2005 AIME II Problems/Problem 7"
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== Solution == | == Solution == | ||
| + | The expression for <math>x</math> looks very suspicious. We multiply top and bottom by <math>(\sqrt[16]{5} -1)</math>. | ||
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| + | <math>(\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)(\sqrt[16]{5}+1)(\sqrt[16]{5} -1) = (\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)((\sqrt[16]{5})^2 - 1) = (\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)(\sqrt[8]{5} - 1) = </math> | ||
| + | <math>= (\sqrt{5}+1)(\sqrt[4]{5}+1)((\sqrt[8]{5})^2-1) = (\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[4]{5}-1) = (\sqrt{5}+1)((\sqrt[4]{5})^2-1) = (\sqrt5 + 1)(\sqrt5 - 1) = 4</math>. | ||
| + | (This is an example of a [[telescoping]] expression. An alternative way to recognize the telescoping nature would be to write roots as [[fractional exponent]]s, to write everything in terms of <math>\sqrt[16]5</math>, or to expand the denominator out entirely.) | ||
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| + | Thus, we have immediately that <math>x= \frac{4(\sqrt[16]5 - 1)}{4} = \sqrt[16]5 - 1</math> so <math>(x + 1)^{48} = (\sqrt[16]5)^{48} = 5^3 = 125</math> | ||
== See Also == | == See Also == | ||
*[[2005 AIME II Problems]] | *[[2005 AIME II Problems]] | ||
Revision as of 09:12, 21 July 2006
Problem
Let ![$x=\frac{4}{(\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)(\sqrt[16]{5}+1)}.$](http://latex.artofproblemsolving.com/6/f/7/6f71d4755273a86295f916ae662a281e75af55c6.png)
Find 
Solution
The expression for 
looks very suspicious. We multiply top and bottom by ![$(\sqrt[16]{5} -1)$](http://latex.artofproblemsolving.com/6/b/f/6bfb889d097358c6c22e240c614d51d884d308b1.png)
.
![$(\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)(\sqrt[16]{5}+1)(\sqrt[16]{5} -1) = (\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)((\sqrt[16]{5})^2 - 1) = (\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[8]{5}+1)(\sqrt[8]{5} - 1) =$](http://latex.artofproblemsolving.com/0/9/c/09c12c9d2dd6c982fcc0f7a3972b87df5e352280.png)
![$= (\sqrt{5}+1)(\sqrt[4]{5}+1)((\sqrt[8]{5})^2-1) = (\sqrt{5}+1)(\sqrt[4]{5}+1)(\sqrt[4]{5}-1) = (\sqrt{5}+1)((\sqrt[4]{5})^2-1) = (\sqrt5 + 1)(\sqrt5 - 1) = 4$](http://latex.artofproblemsolving.com/7/a/5/7a51e7e9378b3be9862dd2e955551bb692dc877a.png)
.
(This is an example of a telescoping expression. An alternative way to recognize the telescoping nature would be to write roots as fractional exponents, to write everything in terms of ![$\sqrt[16]5$](http://latex.artofproblemsolving.com/9/7/3/973a4c40147cfd59ea5dc9d3313c4b6afa4f5f67.png)
, or to expand the denominator out entirely.)
Thus, we have immediately that ![$x= \frac{4(\sqrt[16]5 - 1)}{4} = \sqrt[16]5 - 1$](http://latex.artofproblemsolving.com/5/4/1/541391914e489e342b6c574aa46a05d7d42e1b3e.png)
so ![$(x + 1)^{48} = (\sqrt[16]5)^{48} = 5^3 = 125$](http://latex.artofproblemsolving.com/7/1/2/712816585976400e539a06ff0b568daa40f4e1da.png)
