suppose that K is a divisor of n. prove that Z_n / < k > is...

Prove that if x ∈ Zn − {0} and x has no common divisor with n...

Prove that if x ∈ Zn − {0} and x has no common divisor with n greater than 1, then x has a multiplicative inverse in (Zn − {0}, ·n). State the theorem about Euler’s φ function and show why this fact implies it.

Recall that ν(n) is the divisor function: it gives the number of positive divisors of n....

Recall that ν(n) is the divisor function: it gives the number of positive divisors of n. Prove that ν(n) is a prime number if and only if n = pq-1 , where p and q are prime numbers.

Let n be an even integer. Prove that Dn/Z(Dn) is isomorphic to D(n/2). Prove this using...

Let n be an even integer. Prove that Dn/Z(Dn) is isomorphic to D(n/2). Prove this using the First Isomorphism Theorem

4. Let f : G→H be a group homomorphism. Suppose a∈G is an element of finite...

4. Let f : G→H be a group homomorphism. Suppose a∈G is an element of finite order n. (a) Prove that f(a) has finite order k, where k is a divisor of n. (b) If f is an isomorphism, prove that k=n.

Prove that, for every k > 1, there is a n such that each of n+1,...

Prove that, for every k > 1, there is a n such that each of n+1, n+2, ···, n + k is not a prime number.

Prove directly that the group 2Z = {2k | k ∈ Z} and the group 5Z...

Prove directly that the group 2Z = {2k | k ∈ Z} and the group 5Z = {5k | k ∈ Z} are isomorphic.

7. Prove that for all n ∈ N, if n ≥ 12 then there are k,...

7. Prove that for all n ∈ N, if n ≥ 12 then there are k, ` ∈ N such that 4k + 5` = n. (Hint: use strong induction on the set {n ∈ N : n ≥ 12}, but first prove the result directly for n = 12, 13, 14, and 15.

Prove that lim n^k*x^n=0 as n approaches +infinity. Where -1<x<1 and k is in N.

Prove that lim n^k*x^n=0 as n approaches +infinity. Where -1<x<1 and k is in N.

Prove that for fixed positive integers k and n, the number of partitions of n is...

Prove that for fixed positive integers k and n, the number of partitions of n is equal to the number of partitions of 2n + k into n + k parts. show by using bijection

Prove that the ring Z[x]/(n), where n ∈ Z, is isomorphic to Zn[x].

Prove that the ring Z[x]/(n), where n ∈ Z, is isomorphic to Zn[x].