Difference between revisions of "1985 AIME Problems/Problem 8"
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== Problem == | == Problem == | ||
The sum of the following seven numbers is exactly 19: <math>a_1 = 2.56</math>, <math>a_2 = 2.61</math>, <math>a_3 = 2.65</math>, <math>a_4 = 2.71</math>, <math>a_5 = 2.79</math>, <math>a_6 = 2.82</math>, <math>a_7 = 2.86</math>. It is desired to replace each <math>a_i</math> by an [[integer]] approximation <math>A_i</math>, <math>1\le i \le 7</math>, so that the sum of the <math>A_i</math>'s is also 19 and so that <math>M</math>, the [[maximum]] of the "errors" <math>\| A_i-a_i\|</math>, the maximum [[absolute value]] of the difference, is as small as possible. For this minimum <math>M</math>, what is <math>100M</math>? | The sum of the following seven numbers is exactly 19: <math>a_1 = 2.56</math>, <math>a_2 = 2.61</math>, <math>a_3 = 2.65</math>, <math>a_4 = 2.71</math>, <math>a_5 = 2.79</math>, <math>a_6 = 2.82</math>, <math>a_7 = 2.86</math>. It is desired to replace each <math>a_i</math> by an [[integer]] approximation <math>A_i</math>, <math>1\le i \le 7</math>, so that the sum of the <math>A_i</math>'s is also 19 and so that <math>M</math>, the [[maximum]] of the "errors" <math>\| A_i-a_i\|</math>, the maximum [[absolute value]] of the difference, is as small as possible. For this minimum <math>M</math>, what is <math>100M</math>? | ||
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=== Explanation of the Question === | === Explanation of the Question === | ||
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Note: please read the explanation AFTER YOU HAVE TRIED reading the problem but couldn't understand. | Note: please read the explanation AFTER YOU HAVE TRIED reading the problem but couldn't understand. | ||
| − | + | For the question. Let's say that you have determined 7-tuple <math>(A_1,A_2,A_3,A_4,A_5,A_6,A_7)</math>. Then you get the absolute values of the <math>7</math> differences. Namely, | |
| + | <cmath>|A_1-a_1|, |A_2-a_2|, |A_3-a_3|, |A_4-a_4|, |A_5-a_5|, |A_6-a_6|, |A_7-a_7|</cmath> | ||
| + | Then <math>M</math> is the greatest of the <math>7</math> absolute values. So basically you are asked to find the 7-tuple <math>(A_1,A_2,A_3,A_4,A_5,A_6,A_7)</math> with the smallest <math>M</math>. | ||
== Solution == | == Solution == | ||
Revision as of 22:32, 23 August 2019
Problem
The sum of the following seven numbers is exactly 19: 
, 
, 
, 
, 
, 
, 
. It is desired to replace each 
by an integer approximation 
, 
, so that the sum of the 's is also 19 and so that 
, the maximum of the "errors" 
, the maximum absolute value of the difference, is as small as possible. For this minimum , what is 
?
Explanation of the Question
Note: please read the explanation AFTER YOU HAVE TRIED reading the problem but couldn't understand.
For the question. Let's say that you have determined 7-tuple 
. Then you get the absolute values of the 
differences. Namely,
![\[|A_1-a_1|, |A_2-a_2|, |A_3-a_3|, |A_4-a_4|, |A_5-a_5|, |A_6-a_6|, |A_7-a_7|\]](http://latex.artofproblemsolving.com/6/3/b/63b1c241af4e98dffa1d7337310e6241fe10ab56.png)
Then is the greatest of the absolute values. So basically you are asked to find the 7-tuple with the smallest .
Solution
If any of the approximations is less than 2 or more than 3, the error associated with that term will be larger than 1, so the largest error will be larger than 1. However, if all of the are 2 or 3, the largest error will be less than 1. So in the best case, we write 19 as a sum of 7 numbers, each of which is 2 or 3. Then there must be five 3s and two 2s. It is clear that in the best appoximation, the two 2s will be used to approximate the two smallest of the , so our approximations are 
and 
and the largest error is 
, so the answer is 
.
See also
| 1985 AIME (Problems • Answer Key • Resources) | ||
| Preceded by Problem 7 |
Followed by Problem 9 | |
| 1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
| All AIME Problems and Solutions | ||
