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28 January, 06:24

Prove that u (n) is a group under the operation of multiplication modulo n.

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  1. 28 January, 06:47
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    The answer is the proof so it is long.

    The question doesn't define u (n), but it's not hard to guess.

    Group G with operation ∘

    For all a and b and c in G:

    1) identity: e ∈ G, e∘a = a∘e = a,

    2) inverse: a' ∈ G, a∘a' = a'∘a = e,

    3) closed: a∘b ∈ G,

    4) associative: (a∘b) ∘c = a∘ (b∘c),

    5) (optional) commutative: a∘b = b∘a.

    Define group u (n) for n prime is the set of integers 0 < i < n with operation multiplication modulo n.

    If n isn't prime, we exclude from the group all integers which share factors with n.

    Identity: e = 1. Clearly 1∘a = a∘1 = a. (a is already < n).

    Closed: u (n) is closed for n prime. We must show that for all a, b ∈ u (n), the integer product ab is not divisible by n, so that ab ≢ 0 (mod n). Since n is prime, ab ≠ n. Since a < n, b < n, no factors of ab can equal prime n. (If n isn't prime, we already excluded from u (n) all integers sharing factors with n).

    Inverse: for all a ∈ u (n), there is a' ∈ u (n) with a∘a' = 1. To find a', we apply Euclid's algorithm and write 1 as a linear combination of n and a. The coefficient of a is a' < n.

    Associative and Commutative:

    (a∘b) ∘c = a∘ (b∘c) because (ab) c = a (bc)

    a∘b = b∘a because ab = ba.
  2. 28 January, 08:58
    0
    The answer is the proof so it is long.

    The question doesn't define u (n), but it's not hard to guess.

    Group G with operation ∘

    For all a and b and c in G:

    1) identity: e ∈ G, e∘a = a∘e = a,

    2) inverse: a' ∈ G, a∘a' = a'∘a = e,

    3) closed: a∘b ∈ G,

    4) associative: (a∘b) ∘c = a∘ (b∘c),

    5) (optional) commutative: a∘b = b∘a.

    Define group u (n) for n prime is the set of integers 0 < i < n with operation multiplication modulo n.

    If n isn't prime, we exclude from the group all integers which share factors with n.

    Identity: e = 1. Clearly 1∘a = a∘1 = a. (a is already < n).

    Closed: u (n) is closed for n prime. We must show that for all a, b ∈ u (n), the integer product ab is not divisible by n, so that ab ≢ 0 (mod n). Since n is prime, ab ≠ n. Since a < n, b < n, no factors of ab can equal prime n. (If n isn't prime, we already excluded from u (n) all integers sharing factors with n).

    Inverse: for all a ∈ u (n), there is a' ∈ u (n) with a∘a' = 1. To find a', we apply Euclid's algorithm and write 1 as a linear combination of n and a. The coefficient of a is a' < n.

    Associative and Commutative:

    (a∘b) ∘c = a∘ (b∘c) because (ab) c = a (bc)

    a∘b = b∘a because ab = ba.
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