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प्रश्न
Prove that one and only one out of n, n + 2 and n + 4 is divisible by 3, where n is any positive integer.
उत्तर
On dividing n by 3, let q be the quotient and r be the remainder.
Then, by Euclid’s division algorithm,
n = 3q + r, where 0 ≤ r < 3
`\implies` n = 3q + r, where r = 0, 1, 2
`\implies` n = 3q or n = 3q + 1 or n = 3q + 2
Case I: If n = 3q which is divisible by 3.
But n + 2 and n + 4 are not divisible by 3.
So, in this case, only n is divisible by 3.
Case II: If n = 3q + 1,
Then (n + 2) = 3q + 3 = 3(q + 1),
Which is divisible by 3 but n and n + 4 are not divisible by 3.
So, in this case, only (n + 2) is divisible by 3.
Case III: If n = 3q + 2,
Then (n + 4) = 3q + 6 = 3(q + 2),
Which is divisible by 3 but n and (n + 2) are not divisible by 3.
So, in this case, only (n + 4) is divisible by 3.
Hence, one and only one out of n, (n + 2) and (n + 4) is divisible by 3.
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