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10 September, 23:31

Prove: if n is a natural number, then 2^2n - 1 must be divisible by 3.

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  1. 11 September, 00:55
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    Let P (n) be the statement.

    Note 2^2 - 1 = 3, divisible by 3

    Hence P (1) is true.

    Assume P (k) is true, that is, there exists integer Q such that 2^ (2k) - 1 = 3Q

    Then 2^[2 (k+1) ] - 1

    =[2^ (2k) ] (4) - 1

    = (3Q+1) (4) - 1

    =12Q+3

    =3 (4Q+1)

    Since (4Q+1) is an integer, 2^[2 (k+1) ] - 1 is divisible by 3, that is, P (k+1) is true.

    By the principle of mathematical induction, P (n) is true.
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