We are given that G acts on N and A = {g ∈ G | gn=n...

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 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).

A group G is a simple group if the only normal subgroups of G are G...

A group G is a simple group if the only normal subgroups of G are G itself and {e}. In other words, G is simple if G has no non-trivial proper normal subgroups. Algebraists have proven (using more advanced techniques than ones we’ve discussed) that An is a simple group for n ≥ 5. Using this fact, prove that for n ≥ 5, An has no subgroup of order n!/4 . (This generalizes HW5,#3 as well as our counterexample from...

Let φ : G → G′ be an onto homomorphism and let N be a normal...

Let φ : G → G′ be an onto homomorphism and let N be a normal subgroup of G. Prove that φ(N) is a normal subgroup of G′.

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.

Show that if G is a group, H a subgroup of G with |H| = n,...

Show that if G is a group, H a subgroup of G with |H| = n, and H is the only subgroup of G of order n, then H is a normal subgroup of G. Hint: Show that aHa-1 is a subgroup of G and is isomorphic to H for every a ∈ G.

Searches related to Let H be a subgroup of G. Define an action of H on...

Searches related to Let H be a subgroup of G. Define an action of H on G by h*g=gh^-1. Prove this is a group action. Why do we use h^-1? Prove that the orbit of a in G is the coset aH.

Let G be a non-trivial finite group, and let H < G be a proper subgroup....

Let G be a non-trivial finite group, and let H < G be a proper subgroup. Let X be the set of conjugates of H, that is, X = {aHa^(−1) : a ∈ G}. Let G act on X by conjugation, i.e., g · (aHa^(−1) ) = (ga)H(ga)^(−1) . Prove that this action of G on X is transitive. Use the previous result to prove that G is not covered by the conjugates of H, i.e., G does not equal...

Let N be a normal subgroup of G. Prove or disprove the following assertion: N and...

Let N be a normal subgroup of G. Prove or disprove the following assertion: N and G/N have composition series ----> G has a composition series.

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.