Difference between revisions of "Mock AIME 6 2006-2007 Problems/Problem 7"
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But we subtract the repeated terms in the 67 sequence that are also a multiple of 3 or 5: | But we subtract the repeated terms in the 67 sequence that are also a multiple of 3 or 5: | ||
− | <math>201 | + | <math>201, 402, 603, 804</math> and <math>335, 670</math> gives '''6''' terms. |
Total terms to subtract: <math>334+200-66+14-6=\textbf{476}</math> | Total terms to subtract: <math>334+200-66+14-6=\textbf{476}</math> | ||
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Therefore, the number of distinct complex that <math>Q_{1004}</math> have more than <math>Q_{1003}</math> is: | Therefore, the number of distinct complex that <math>Q_{1004}</math> have more than <math>Q_{1003}</math> is: | ||
− | + | <math>1004-476=\boxed{528}</math> distinct complex roots that <math>Q_{1004}</math> have more than <math>Q_{1003}</math> | |
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~Tomas Diaz. orders@tomasdiaz.com | ~Tomas Diaz. orders@tomasdiaz.com | ||
{{alternate solutions}} | {{alternate solutions}} |
Latest revision as of 19:51, 26 November 2023
Problem
Let and for all integers . How many more distinct complex roots does have than ?
Solution
The roots of will be in the form for with the only real solution when is odd and and the rest are complex.
Therefore, each will have distinct complex roots when is even and distinct complex roots when is odd.
The roots of will be all of the roots of which will include several repeated roots.
To get how many more complex roots does have than that will be the number of complex roots of .
But to get how many more distinct complex roots, we must subtract the complex roots of that can be found in
complex roots of for a total of complex roots.
Now we subtract the common complex roots of with by finding how many reducible fractions are there in for
Since then is reducible when or or
gives 334 terms
gives 200 terms
But we subtract the repeated terms in the 5 sequence that are also a multiple of 3:
which is 66 terms
gives 14 terms
But we subtract the repeated terms in the 67 sequence that are also a multiple of 3 or 5:
and gives 6 terms.
Total terms to subtract:
Therefore, the number of distinct complex that have more than is:
distinct complex roots that have more than
~Tomas Diaz. orders@tomasdiaz.com
Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.