Difference between revisions of "2017 AMC 12B Problems/Problem 21"
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==Solution== | ==Solution== | ||
Let us simplify the problem. Since all of Isabella's test scores can be expressed as the sum of 90 and an integer between 1 and 10, we rewrite the problem into receiving scores between 1 and 10. Later, we can add 90 to her score to obtain the real answer. | Let us simplify the problem. Since all of Isabella's test scores can be expressed as the sum of 90 and an integer between 1 and 10, we rewrite the problem into receiving scores between 1 and 10. Later, we can add 90 to her score to obtain the real answer. | ||
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From this point of view, the problem states that isabella's score on the seventh test was 5. We note that Isabella received 7 integer scores out of 1 to 10. Since 5 is already given as the seventh test score, the possible scores for Isabella on the other six tests are S={1,2,3,4,6,7,8,9,10}. | From this point of view, the problem states that isabella's score on the seventh test was 5. We note that Isabella received 7 integer scores out of 1 to 10. Since 5 is already given as the seventh test score, the possible scores for Isabella on the other six tests are S={1,2,3,4,6,7,8,9,10}. | ||
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The average score for the seven tests must be an integer. In other words, six distinct integers must be picked from set S above, and their sum with 5 must be a multiple of 7. The interval containing the possible sums of the six numbers in S are from 23(=1+2+3+4+6+7) to 44(=4+6+7+8+9+10). We must now find multiples of 7 from the interval 28(=23+5) to 49(=44+5). There are four possibilities: 28, 35, 42, 49. | The average score for the seven tests must be an integer. In other words, six distinct integers must be picked from set S above, and their sum with 5 must be a multiple of 7. The interval containing the possible sums of the six numbers in S are from 23(=1+2+3+4+6+7) to 44(=4+6+7+8+9+10). We must now find multiples of 7 from the interval 28(=23+5) to 49(=44+5). There are four possibilities: 28, 35, 42, 49. | ||
However, we also note that the sum of the six numbers (besides 5) must be a multiple of 6 as well. Thus, 35 is the only valid choice.(The six numbers sum to 30.) | However, we also note that the sum of the six numbers (besides 5) must be a multiple of 6 as well. Thus, 35 is the only valid choice.(The six numbers sum to 30.) | ||
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Thus the sum of the six numbers equals to 30. We apply the logic above in a similar way for the sum of the scores from the first test to the fifth test. The sum must be a multiple of 5. The possible interval is from 16(=1+2+3+4+6) to 40(=6+7+8+9+10). Since the sum of the five scores must be less than 30, the only possibilities are 20 and 25. However, we notice that 25 does not work because the sixth score turns out to be 5 from the calculation. Therefore, the sum of Isabella's scores from test 1 to 5 is 20. Therefore, her score on the sixth test is 10. | Thus the sum of the six numbers equals to 30. We apply the logic above in a similar way for the sum of the scores from the first test to the fifth test. The sum must be a multiple of 5. The possible interval is from 16(=1+2+3+4+6) to 40(=6+7+8+9+10). Since the sum of the five scores must be less than 30, the only possibilities are 20 and 25. However, we notice that 25 does not work because the sixth score turns out to be 5 from the calculation. Therefore, the sum of Isabella's scores from test 1 to 5 is 20. Therefore, her score on the sixth test is 10. | ||
Our final answer is 10+90=100 ==> (E) | Our final answer is 10+90=100 ==> (E) | ||
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+ | (I would really appreciate it if someone could insert mathematical symbols to make this solution more clear.) |
Revision as of 04:55, 17 February 2017
Problem 21
Last year, Isabella took 7 math tests and received 7 different scores, each an integer between 91 and 100, inclusive. After each test she noticed that the average of her test scores was an integer. Her score on the seventh test was 95. Was was her score on the sixth test?
Solution
Let us simplify the problem. Since all of Isabella's test scores can be expressed as the sum of 90 and an integer between 1 and 10, we rewrite the problem into receiving scores between 1 and 10. Later, we can add 90 to her score to obtain the real answer.
From this point of view, the problem states that isabella's score on the seventh test was 5. We note that Isabella received 7 integer scores out of 1 to 10. Since 5 is already given as the seventh test score, the possible scores for Isabella on the other six tests are S={1,2,3,4,6,7,8,9,10}.
The average score for the seven tests must be an integer. In other words, six distinct integers must be picked from set S above, and their sum with 5 must be a multiple of 7. The interval containing the possible sums of the six numbers in S are from 23(=1+2+3+4+6+7) to 44(=4+6+7+8+9+10). We must now find multiples of 7 from the interval 28(=23+5) to 49(=44+5). There are four possibilities: 28, 35, 42, 49. However, we also note that the sum of the six numbers (besides 5) must be a multiple of 6 as well. Thus, 35 is the only valid choice.(The six numbers sum to 30.)
Thus the sum of the six numbers equals to 30. We apply the logic above in a similar way for the sum of the scores from the first test to the fifth test. The sum must be a multiple of 5. The possible interval is from 16(=1+2+3+4+6) to 40(=6+7+8+9+10). Since the sum of the five scores must be less than 30, the only possibilities are 20 and 25. However, we notice that 25 does not work because the sixth score turns out to be 5 from the calculation. Therefore, the sum of Isabella's scores from test 1 to 5 is 20. Therefore, her score on the sixth test is 10. Our final answer is 10+90=100 ==> (E)
(I would really appreciate it if someone could insert mathematical symbols to make this solution more clear.)