Prove that there is no simple nonabelian group of order less than 60, using "if G...

4. Let f : G→H be a group homomorphism. Suppose a∈G is an element of finite...

4. Let f : G→H be a group homomorphism. Suppose a∈G is an element of finite order n. (a) Prove that f(a) has finite order k, where k is a divisor of n. (b) If f is an isomorphism, prove that k=n.

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...

Prove that if (G, ·) is a finite group of even order, then there always exists...

Prove that if (G, ·) is a finite group of even order, then there always exists an element g∈G such that g ≠ 1 and g2=1.

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.

prove that if G is a cyclic group of order n, then for all a in...

prove that if G is a cyclic group of order n, then for all a in G, a^n=e.

(abstract alg) Let G be a cyclic group with more than two elements: a) Prove that...

(abstract alg) Let G be a cyclic group with more than two elements: a) Prove that G has at least two different generators. b) If G is finite, prove that G has an even number of generators

Let G be an infinite simple p-group. Prove that Z(G) = 1.

Let G be an infinite simple p-group. Prove that Z(G) = 1.

Prove that a group G of order 210 has a subgroup of order 14 using Sylow's...

Prove that a group G of order 210 has a subgroup of order 14 using Sylow's theorem, and please be detailed in your proof. I have tried this multiple times but I keep getting stuck.

Let G be a group of order 4. Prove that either G is generated by a...

Let G be a group of order 4. Prove that either G is generated by a single element or g^2 =1 for all g∈G.

Let G be a group of order n and a in G such that a^n =...

Let G be a group of order n and a in G such that a^n = e. Prove or disprove: G = <a>