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...

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) 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)].

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.

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)

Let G and G′ be two isomorphic groups that have a unique normal subgroup of a...

Let G and G′ be two isomorphic groups that have a unique normal subgroup of a given order n, H and H′. Show that the quotient groups G/H and G′/H′ are isomorphic.

Let G and H be groups, and let G0 = {(g, 1) : g ∈ G}...

Let G and H be groups, and let G0 = {(g, 1) : g ∈ G} . (a) Show that G0 ≅ G. (b) Show that G0 is a normal subgroup of G × H. (c) Show that (G × H)/G0 ≅ H.

Let G be a group and suppose H = {g5 : g ∈ G} is a...

Let G be a group and suppose H = {g5 : g ∈ G} is a subgroup of G. (a) Prove that H is normal subgroup of G. (b) Prove that every element in G/H has order at most 5.

Let G be a finite group and let H be a subgroup of order n. Suppose...

Let G be a finite group and let H be a subgroup of order n. Suppose that H is the only subgroup of order n. Show that H is normal in G. Hint: Consider the subgroup aHa-1 of G. Please explain in detail!

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 finite Abelian group and Let n be a positive divisor of |G|....

Let G be a finite Abelian group and Let n be a positive divisor of |G|. Show that G has a subgroup of order n.