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...

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 finite abelian group of odd order. Prove that the mapping φ : G → G given by g → g2 is an automorphism.

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.

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 G and H be groups and f:G--->H be a surjective homomorphism. Let J be a...

Let G and H be groups and f:G--->H be a surjective homomorphism. Let J be a subgroup of H and define f^-1(J) ={x is an element of G| f(x) is an element of J} a. Show ker(f)⊂f^-1(J) and ker(f) is a normal subgroup of f^-1(J) b. Let p: f^-1(J) --> J be defined by p(x) = f(x). Show p is a surjective homomorphism c. Show the set kef(f) and ker(p) are equal d. Show J is isomorphic to f^-1(J)/ker(f)

Group Theory Question: Show that if a finite group G with 6 elements is not abelian,...

Group Theory Question: Show that if a finite group G with 6 elements is not abelian, then it must be the group of symmetries of an equilateral triangle. Can one have a similar statement for a finite group G of eight elements?

Suppose G, H be groups and φ : G → H be a group homomorphism. Then...

Suppose G, H be groups and φ : G → H be a group homomorphism. Then the for any subgroup K of G, the image φ (K) = {y ∈ H | y = f(x) for some x ∈ G} is a group a group in H.

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 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.

Let G be a finite group and H a subgroup of G. Let a be an...

Let G be a finite group and H a subgroup of G. Let a be an element of G and aH = {ah : h is an element of H} be a left coset of H. If B is an element of G as well show that aH and bH contain the same number of elements in G.