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1980 Canadian MO Problems/Problem 1

Problem

If $a679b$ is the decimal expansion of a number in base $10$, such that it is divisible by $72$, determine $a,b$.

Solution

Write $a679b$ as $a679b = 10000a + 6790 + b = 72n$, for some integer $n$. Since $72 = 8 \times 9$, we look at this equation $\mod 8$, then $\mod 9$.


Looking at the equation $\mod 8$:

$\begin{matrix} 10000a + 6790 + b \equiv 0 + 6 + b &\equiv& 0 \mod 8 \\ 6 + b &\equiv& 0 \mod 8 \\ b &\equiv& 2 \mod 8 \end{matrix}$

Thus, $b = 2$.

Substituting $b=2$ into the equation, and looking at the equation $\mod 9$:

$\begin{matrix} 10000a + 6790 + b \equiv a + 6792 &\equiv& 0 \mod 9 \\ a+6 &\equiv& 0 \mod 9 \\ a &\equiv& 3 \mod 9 \end{matrix}$

Thus, $a = 3$.

Thus, we get the 5 digit number $36792$, which is indeed divisible by $72$, thus satisfying requirements. Thus, $a = 3, b = 2$.

See also

1980 Canadian MO (Problems)
Preceded by
First Question 		1 2 3 4 5 Followed by
Problem 2
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