Difference between revisions of "1984 AIME Problems/Problem 2"

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The sum of the digits of any multiple of 3 must be [[divisible]] by 3.  If <math>n</math> has <math>a</math> digits equal to 8, the sum of the digits of <math>n</math> is <math>.  For this number to be divisible by 3, </math>a<math> must be divisible by 3. We also know that </math>a>0<math> since </math>n<math> is positive. Thus </math>n<math> must have at least three copies of the digit 8.   
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The sum of the digits of any multiple of 3 must be [[divisible]] by 3.  If <math>n</math> has <math>a</math> digits equal to 8, the sum of the digits of <math>n</math> is <math>8a</math>.  For this number to be divisible by 3, <math>a</math> must be divisible by 3. We also know that <math>a>0</math> since <math>n</math> is positive. Thus <math>n</math> must have at least three copies of the digit 8.   
  
The smallest number which meets these two requirements is 8880.  Thus the answer is </math>\frac{8880}{15} = \boxed{592}$.
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The smallest number which meets these two requirements is 8880.  Thus the answer is <math>\frac{8880}{15} = \boxed{592}</math>.
  
 
== See also ==
 
== See also ==

Revision as of 19:00, 29 May 2021

Problem

The integer $n$ is the smallest positive multiple of $15$ such that every digit of $n$ is either $8$ or $0$. Compute $\frac{n}{15}$.

Solution

Any multiple of 15 is a multiple of 5 and a multiple of 3.

Any multiple of 5 ends in 0 or 5; since $n$ only contains the digits 0 and 8, the units digit of $n$ must be 0.



The sum of the digits of any multiple of 3 must be divisible by 3. If $n$ has $a$ digits equal to 8, the sum of the digits of $n$ is $8a$. For this number to be divisible by 3, $a$ must be divisible by 3. We also know that $a>0$ since $n$ is positive. Thus $n$ must have at least three copies of the digit 8.

The smallest number which meets these two requirements is 8880. Thus the answer is $\frac{8880}{15} = \boxed{592}$.

See also

1984 AIME (ProblemsAnswer KeyResources)
Preceded by
Problem 1
Followed by
Problem 3
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
All AIME Problems and Solutions