Difference between revisions of "1992 USAMO Problems/Problem 3"
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− | Furthermore, if you add any amount of elements to the end of a <math>n</math>-<math>p</math> bad set to form another <math>n</math>-<math>p</math> set (with a different <math>n</math>), it will stay as a <math>n</math>-<math>p</math> bad set because <math>a_{n+x}>a_{n}>p+1</math> for any positive integer <math>x</math> and <math>\ | + | Furthermore, if you add any amount of elements to the end of a <math>n</math>-<math>p</math> bad set to form another <math>n</math>-<math>p</math> set (with a different <math>n</math>), it will stay as a <math>n</math>-<math>p</math> bad set because <math>a_{n+x}>a_{n}>p+1</math> for any positive integer <math>x</math> and <math>\nexists \sigma(Y)=p+1</math>. |
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<math>\{1,2,4,8,16,32,64,128,247,248,750\}</math> | <math>\{1,2,4,8,16,32,64,128,247,248,750\}</math> | ||
− | Note that the first 8 numbers are power of <math>2</math> from <math>0</math> to <math>7</math>, and realize that any <math>8</math> or less digit binary number is basically sum of a combination of the first <math>8</math> elements in the set. Thus, <math>\ | + | Note that the first 8 numbers are power of <math>2</math> from <math>0</math> to <math>7</math>, and realize that any <math>8</math> or less digit binary number is basically sum of a combination of the first <math>8</math> elements in the set. Thus, <math>\exists Y\subseteq\{1,2,4,8,16,32,64,128\}</math>, <math>\sigma(Y)=x \forall 1\le x\leq 255</math>. |
− | <math>248\le\sigma(y)+a_9\le502</math> which implies that <math>\ | + | <math>248\le\sigma(y)+a_9\le502</math> which implies that <math>\exists A\subseteq\{1,2,4,8,16,32,64,128,247\}</math>, <math>\sigma(A)=x \forall 1\le x\leq 502</math>. |
− | + | Similarly <math>\exists B\subseteq\{1,2,4,8,16,32,64,128,247,248\}</math>, <math>\sigma(A)=x \forall 1\le x\le750</math> and <math>\exists C\subseteq\{1,2,4,8,16,32,64,128,247,248,750\}</math>, <math>\sigma(A)=x \forall 1\leq x\leq 1500</math>. | |
<br/>Thus, <math>\{1,2,4,8,16,32,64,128,247,248,750\}</math> is a <math>11</math>-<math>1500</math> set. | <br/>Thus, <math>\{1,2,4,8,16,32,64,128,247,248,750\}</math> is a <math>11</math>-<math>1500</math> set. |
Revision as of 06:52, 19 July 2016
Problem
For a nonempty set of integers, let be the sum of the elements of . Suppose that is a set of positive integers with and that, for each positive integer , there is a subset of for which . What is the smallest possible value of ?
Solution
Let's a - set be a set such that , where , , , and for each , , , , .
(For Example is a - set and is a - set)
Furthermore, let call a - set a - good set if , and a - bad set if (note that for any - set. Thus, we can ignore the case where ).
Furthermore, if you add any amount of elements to the end of a - bad set to form another - set (with a different ), it will stay as a - bad set because for any positive integer and .
Lemma) If is a - set, .
For , or because and .
Assume that the lemma is true for some , then is not expressible with the - set. Thus, when we add an element to the end to from a - set, must be if we want because we need a way to express . Since is not expressible by the first elements, is not expressible by these elements. Thus, the new set is a - set, where
Lemma Proven
The answer to this question is .
The following set is a - set:
Note that the first 8 numbers are power of from to , and realize that any or less digit binary number is basically sum of a combination of the first elements in the set. Thus, , .
which implies that , .
Similarly , and , .
Thus, is a - set.
Now, let's assume for contradiction that such that is a - set where
is a - set where (lemma).
Let be a - set where the first elements are the same as the previous set. Then, is not expressible as . Thus, .
In order to create a - set with and the first elements being the ones on the previous set, because we need to make expressible as . Note that is not expressible, thus .
Done but not elegant...
Resources
1992 USAMO (Problems • Resources) | ||
Preceded by Problem 2 |
Followed by Problem 4 | |
1 • 2 • 3 • 4 • 5 | ||
All USAMO Problems and Solutions |
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.