Difference between revisions of "2021 Fall AMC 12B Problems/Problem 25"
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<math>n+1 \equiv 0 \pmod 9</math>: subtract by <math>9</math>, but this also implies mod <math>3</math>, so subtract by <math>12</math>: too much | <math>n+1 \equiv 0 \pmod 9</math>: subtract by <math>9</math>, but this also implies mod <math>3</math>, so subtract by <math>12</math>: too much | ||
− | <math>n+1 \equiv 0 \pmod | + | <math>n+1 \equiv 0 \pmod {10}</math>: subtract by <math>10</math>: too much |
− | Notice that <math>9 = 7+2 = 6+3 = 5+4 = 4+3+2</math>. By testing these sums, we can easily show that the only time when the total subtraction is <math>9</math> is when <math>n+1 \equiv 0 \pmod 2</math> AND <math>n+1 \equiv 0 \pmod 7</math>. By CRT, <math>n+1 \equiv 0 \pmod | + | Notice that <math>9 = 7+2 = 6+3 = 5+4 = 4+3+2</math>. By testing these sums, we can easily show that the only time when the total subtraction is <math>9</math> is when <math>n+1 \equiv 0 \pmod 2</math> AND <math>n+1 \equiv 0 \pmod 7</math>. By CRT, <math>n+1 \equiv 0 \pmod {14}</math>: |
Revision as of 00:16, 21 August 2024
Contents
Problem
For a positive integer, let be the sum of the remainders when is divided by , , , , , , , , and . For example, . How many two-digit positive integers satisfy
Solution 1
Note that we can add to to get , but must subtract for all . Hence, we see that there are four ways to do that because . Note that only is a plausible option, since indicates is divisible by , indicates that is divisible by , indicates is divisible by , and itself indicates divisibility by , too. So, and is not divisible by any positive integers from to , inclusive, except and . We check and get that only and give possible solutions so our answer is .
- kevinmathz
Solution 2
Denote by the remainder of divided by . Define .
Hence,
Hence, this problem asks us to find all , such that .
: .
We have .
Therefore, there is no in this case.
: and .
The condition implies . This further implies . Hence, .
To get , we have .
However, we have .
Therefore, there is no in this case.
: for and .
The condition implies with . Hence, and .
To get , we have .
However, we have .
Therefore, there is no in this case.
: for and .
To get , we have .
Hence, we must have and for .
Therefore, .
: for and .
The condition implies with . Hence, and .
To get , we have .
However, we have .
Therefore, there is no in this case.
: for and .
To get , we have .
This can be achieved if , , .
However, implies . This implies . Hence, . We get a contradiction.
Therefore, there is no in this case.
: for and .
The condition implies with . Hence, .
To get , we have . This implies .
Because and , we have . Hence, . However, in this case, we assume . We get a contradiction.
Therefore, there is no in this case.
: for and .
To get , we have . This is infeasible.
Therefore, there is no in this case.
: for .
To get , we have . This is infeasible.
Therefore, there is no in this case.
Putting all cases together, the answer is .
~Steven Chen (www.professorchenedu.com)
Solution 3
To get from to , would add by for each remainder . However, given that some of these remainders can "round down" to given the nature of mods, we must calculate the possible values of such that the remainders in "rounds down" by a total of , effectively canceling out the adding by initially.
To do so, we will analyze the "rounding down" for each of :
: subtract by
: subtract by
: subtract by , but this also implies mod , so subtract by .
: subtract by
: subtract by , but this also implies mod and , so subtract by : too much
: subtract by
: subtract by , but this also implies mod and , so subtract by : too much
: subtract by , but this also implies mod , so subtract by : too much
: subtract by : too much
Notice that . By testing these sums, we can easily show that the only time when the total subtraction is is when AND . By CRT, :
As in solution 1, then, only and give possible solutions, so our answer is .
~xHypotenuse
Video Solution
~MathProblemSolvingSkills.com
Video Solution by Mathematical Dexterity
https://www.youtube.com/watch?v=Fy8wU4VAzkQ
2021 Fall AMC 12B (Problems • Answer Key • Resources) | |
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