If H is a normal subgroup of G and |H| = 2, prove that H is...

If N is a normal subgroup of G and H is any subgroup of G, prove...

If N is a normal subgroup of G and H is any subgroup of G, prove that NH is a subgroup of G.

Let G be a finite group and H be a subgroup of G. Prove that if...

Let G be a finite group and H be a subgroup of G. Prove that if H is only subgroup of G of size |H|, then H is normal in G.

(b) If H is a p-subgroup of a finite group G, prove that H is contained...

(b) If H is a p-subgroup of a finite group G, prove that H is contained in a Sylow p-subgroup of G. [Hint: Consider the H-conjugacy class equation for the set of all Sylowp-subgroups of G.]

Let G be a finitely generated group, and let H be normal subgroup of G. Prove...

Let G be a finitely generated group, and let H be normal subgroup of G. Prove that G/H is finitely generated

Suppose : phi :G -H is a group isomorphism . If N is a normal subgroup...

Suppose : phi :G -H is a group isomorphism . If N is a normal subgroup of G then phi(N) is a normal subgroup of H. Prove it is a subgroup and prove it is normal?

Let H be a normal subgroup of G. Assume the quotient group G/H is abelian. Prove...

Let H be a normal subgroup of G. Assume the quotient group G/H is abelian. Prove that, for any two elements x, y ∈ G, we have x^ (-1) y ^(-1)xy ∈ H

Suppose H is a normal subgroup of G where both H and G/H are solvable groups....

Suppose H is a normal subgroup of G where both H and G/H are solvable groups. Prove that G is then a solvable group as well.

Prove that if A is a subgroup of G and B is a subgroup of H,...

Prove that if A is a subgroup of G and B is a subgroup of H, then the direct product A × B is a subgroup of G × H. Show all steps. Note that AXB is nonempty since the identity e is a part of A X B. Remains only to show that A X B is closed under multiplication and inverses.

Suppose that H is a normal subgroup of G and K is any subgroup of G....

Suppose that H is a normal subgroup of G and K is any subgroup of G. Define HK = {hk : h ? H, k ? K}. (a) Show that HK is a subgroup of G. (b) Does the conclusion of (a) continue to hold if H is not normal in G? Justify

Let H be a subgroup of G, and N be the normalizer of H in G...

Let H be a subgroup of G, and N be the normalizer of H in G and C be the centralizer of H in G. Prove that C is normal in N and the group N/C is isomorphic to a subgroup of Aut(H).