An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) Let G be...

An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) If G is...

An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) If G is a finite group and Aut(G) acts transitively on G# = G − 1, then prove that G is an elementary abelian group.

An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) Let G be...

An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) Let G be a nonabelian group of order 55. Assume G has a normal subgroup K ≅ Z11 and a subgroup Q ≅ Z5.

An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) If G is...

An Introduction of the Theory of Groups - Fourth Edition (Joseph J. Rotman) If G is a finite group and H ≤ G, then the number of conjugates of H in G is [G : NG(H)].

Let G be an Abelian group. Let k ∈ Z be nonzero. Define φ : G...

Let G be an Abelian group. Let k ∈ Z be nonzero. Define φ : G → G by φ(x) = x^ k . (a) Prove that φ is a group homomorphism. (b) Assume that G is finite and |G| is relatively prime to k. Prove that Ker φ = {e}.

If G is some group where φ : G → G is some function given by...

If G is some group where φ : G → G is some function given by φ(g) = g−1 for every g ∈ G. Prove φ is an isomorphism of groups IFF G is abelian

Let G be a group (not necessarily an Abelian group) of order 425. Prove that G...

Let G be a group (not necessarily an Abelian group) of order 425. Prove that G must have an element of order 5. Note, Sylow Theorem is above us so we can't use it. We're up to Finite Orders. Thank you.

Let G be a finite group, and suppose that H is normal subgroup of G. Show...

Let G be a finite group, and suppose that H is normal subgroup of G. Show that, for every g ∈ G, the order of gH in G/H must divide the order of g in G. What is the order of the coset [4]42 + 〈[6]42〉 in Z42/〈[6]42〉? Find an example to show that the order of gH in G/H does not always determine the order of g in G. That is, find an example of a group G, and...

Let G be a group of order p^3. Prove that either G is abelian or its...

Let G be a group of order p^3. Prove that either G is abelian or its center has exactly p elements.

Let G be a group and α : G → H be a homomorphism of groups...

Let G be a group and α : G → H be a homomorphism of groups with H abelian. Show that α factors via G/[G, G], i.e. there exists a homomorphism β : G/[G, G] −→ H, such that α = β◦q, where q : G −→ G/[G, G] is the quotient homomorphis

Suppose G and H are groups and ϕ:G -> H is a homomorphism. Let N be...

Suppose G and H are groups and ϕ:G -> H is a homomorphism. Let N be a normal subgroup of G contained in ker(ϕ). Define a mapping ψ: G/N -> H by ψ (aN)= ϕ (a) for all a in G. Prove that ψ is a well-defined homomorphism from G/N to H. Is ψ always an isomorphism? Prove it or give a counterexample