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Question
A positive integer is of the form 3q + 1, q being a natural number. Can you write its square in any form other than 3m + 1, i.e., 3m or 3m + 2 for some integer m? Justify your answer.
Solution
According to Euclid's lemma, b = aq + r, 0 ≤ r < a
Comparing aq + r with 3m + 2, a = 3 and 0 ≤ r < 3
This means that r = 0, 1 and 2.
Hence 3q + r where 0 ≤ r <3.
For r = 0,
3q + 0 = 3q
(3q)2 = 9q2 which is a form of 3m where m = 3q2
For r = 1,
(3q + 1)2 = 9q2 + 6q + 1
= 3(3q2 + 2q) + 1
= 3m + 1
Where, m = 3q2 + 2q
For r = 2,
(3q + 2)2 = 9q2 + 12q + 4
= 9q2 + 12q + 3 + 1
= 3(3q2 + 4q + 1) + 1
= 3m + 1
Where, m = 3q2 + 4q + 1
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