Difference between revisions of "1984 AIME Problems/Problem 10"

Revision as of 11:54, 18 October 2007

Problem

Mary told John her score on the American High School Mathematics Examination (AHSME), which was over $80$ . From this, John was able to determine the number of problems Mary solved correctly. If Mary's score had been any lower, but still over $80$ , John could not have determined this. What was Mary's score? (Recall that the AHSME consists of $30$ multiple choice problems and that one's score, $s$ , is computed by the formula $s=30+4c-w$ , where $c$ is the number of correct answers and $w$ is the number of wrong answers. (Students are not penalized for problems left unanswered.)

Solution

Let Mary's score, number correct, and number wrong be $s,c,w$ respectively. Then

$s=30+4c-w=30+4(c-1)-(w-4)=30+4(c+1)-(w+4)$ .

Therefore, Mary could not have left at least five blank; otherwise, 1 more correct and 4 more wrong would produce the same score. Similarly, Mary could not have answered at least four wrong (clearly Mary answered at least one right to have score above 80, or even 30.)

It follows that $c+w\geq 26$ and $w\leq 3$ , so $c\geq 23$ and $s=30+4c-w\geq 30+4(23)-3=119$ . So Mary scored at least 119. To see that no result other than 23 right/3 wrong produces 119, note that $s=119\Rightarrow 4c-w=89$ so $w\equiv 3\pmod{4}$ . But if $w=3$ , then $c=23$ , which was the result given; otherwise $w\geq 7$ and $c\geq 24$ , but this implies at least 31 questions, a contradiction. This makes the minimum score $119$ .

@@ Line 5: / Line 5: @@
 Let Mary's score, number correct, and number wrong be <math>s,c,w</math> respectively. Then
-<math>s=30+4c-w=30+4(c-1)-(w-4)=30+4(c+1)-(w+4)</math>
+<math>s=30+4c-w=30+4(c-1)-(w-4)=30+4(c+1)-(w+4)</math>.
 Therefore, Mary could not have left at least five blank; otherwise, 1 more correct and 4 more wrong would produce the same score. Similarly, Mary could not have answered at least four wrong (clearly Mary answered at least one right to have score above 80, or even 30.)
-It follows that <math>c+w\geq 26</math> and <math>w\leq 3</math>, so <math>c\geq 23</math> and <math>s=30+4c-w\geq 30+4(23)-3=119</math>. So Mary scored at least 119. To see that no result other than 23 right/3 wrong produces 119, note that <math>s=119\Rightarrow 4c-w=89</math> so <math>w\equiv 3\pmod{4}</math>. But if <math>w=3</math>, then <math>c=23</math> which was the result given; otherwise <math>w\geq 7</math> and <math>c\geq 24</math>, but this implies at least 31 questions, a contradiction. This makes the minimum score <math>119</math>.
+It follows that <math>c+w\geq 26</math> and <math>w\leq 3</math>, so <math>c\geq 23</math> and <math>s=30+4c-w\geq 30+4(23)-3=119</math>. So Mary scored at least 119. To see that no result other than 23 right/3 wrong produces 119, note that <math>s=119\Rightarrow 4c-w=89</math> so <math>w\equiv 3\pmod{4}</math>. But if <math>w=3</math>, then <math>c=23</math>, which was the result given; otherwise <math>w\geq 7</math> and <math>c\geq 24</math>, but this implies at least 31 questions, a contradiction. This makes the minimum score <math>119</math>.
 == See also ==

1984 AIME (Problems • Answer Key • Resources)
Preceded by Problem 9	Followed by Problem 11
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Difference between revisions of "1984 AIME Problems/Problem 10"

Revision as of 11:54, 18 October 2007

Problem

Solution

See also