Show that a group of order 84 cannot be simple.

Show that no group of order 992=2^5 * 31 is simple.

Show that no group of order 992=2^5 * 31 is simple.

Use Sylow Theorems: Show that every group of order 144 is not simple.

Use Sylow Theorems: Show that every group of order 144 is not simple.

If G is a group of order 250,000 = 2 456, show that G is not...

If G is a group of order 250,000 = 2 456, show that G is not simple

Show that a group of order 5 is abelian.

Show that a group of order 5 is abelian.

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

Prove that there is no simple nonabelian group of order less than 60, using "if G is a finite simple group and n=[G:K]>1, then |G| is a divisor of n!. Try group similar cases together.

Show that in a free group, any nonidentity element is of infinite order

Show that in a free group, any nonidentity element is of infinite order

if p and q are primes, show that every proper subgroup of a group of order...

if p and q are primes, show that every proper subgroup of a group of order pq is cyclic

Let p be a prime. Show that a group of order pa has a normal subgroup...

Let p be a prime. Show that a group of order pa has a normal subgroup of order pb for every nonnegative integer b ≤ a.

Let G be a group of order p^2, where p is a prime. Show that G...

Let G be a group of order p^2, where p is a prime. Show that G must have a subgroup of order p. please show with notation if possible

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...