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[[Category:MA598ASummer2013Weigel]]
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[[Category:Math]]  
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[[Category:MA598]]
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[[Category:Problem_solving]]  
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[[Category:Algebra]] 
  
=598A_Assignment2=
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= Assignment #2, 06.12.13: '''Group Theory II'''<br>  =
  
 +
[[Media:598A_PS2.pdf| pdf File]]
 +
----
 +
Please post comments, questions, attempted or completed solutions, etc. here.&nbsp; If you want to post a solution, create a new page using the toolbar on the left.
 +
----
 +
==(1)==
 +
Suppose that G is a group and that the set {x ∈ G | |x| = 2} has exactly one element. Show that G is abelian.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==2==
 +
You are given that G is group of order 24 which is not isomorphic to S4 .
 +
Show that one of its Sylow subgroups is normal.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==3==
 +
Determine the number of pairwise non-isomorphic groups of order pq, where p and q are prime.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==4==
 +
Let ϕ : G → H be a homomorphism of groups. Let G # and H # denote
 +
the set of conjugacy classes in G and H , respectively.
  
 +
(a) Show that ϕ induces a map ϕ# : G# → H#.
  
Put your content here . . .
+
(b) Show that if ϕ# is injective, so is ϕ.  
  
 +
(c) Show that if ϕ# is surjective, and H is finite, then ϕ is surjective. (Hint: one of the problems from PS1 might be useful here...)
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==5==
 +
Let G be a group of order 56 with a normal 2-Sylow subgroup Q, and let P be a 7-Sylow subgroup of G. Show that G∼= P × Q or Q ∼= Z × Z × Z.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==6==
 +
Let G be a group and H a subgroup of G with finite index. Show that
 +
there exists a normal subgroup N of G of finite index with N ⊂ H.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==7==
 +
Let G be a finite group and P a p-Sylow subgroup of G for some prime p. (You may assume that p divides
 +
|G|. I haven’t had enough coffee to think about the implications of the vacuous case...)
  
 +
(a) Assume p=2 and P is cyclic. Show that the normalizer and centralizer of P coincide.
  
 +
(b) Show that this may not hold if p = 2 but P is not cyclic.
  
[[ 2013 Summer MA 598A Weigel|Back to 2013 Summer MA 598A Weigel]]
+
(c) Show that the first statement does not hold regardless of cyclicity if p ̸= 2.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==8==
 +
Let G be a finite group and ϕ : G → G a homomorphism. Show that ϕ(P )
 +
is a subgroup of P whenever P is a normal Sylow subgroup.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
==9==
 +
(a) Find all simple groups of order 101.
 +
 
 +
(b) Find all simple groups of order 102.
 +
 
 +
(c) Find all groups of order 175.
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.----
 +
==10==
 +
Let p and q be primes such that p divides q − 1.
 +
 
 +
(a) Show that there exists a group G with generators x and y and relations
 +
xp
 +
2
 +
= 1, yq = 1, xyx−1 = ya ,
 +
where a is an integer not congruent to 1 mod q, but ap
 +
∼= 1(mod q).
 +
 
 +
(b) Prove that the Sylow q-subgroup Sq
 +
⊂ G is normal.
 +
 
 +
(c) Prove that G/Sq is cyclic; and deduce that G has a unique subgroup
 +
H of order pq.
 +
 
 +
(d) Prove that H is cyclic.
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 +
(e) Prove that any subgroup of G with order p is contained in H , hence
 +
is generated by xp and is contained in the center of G.
 +
 
 +
(f ) Prove that the center of G is the unique subgroup of G having order
 +
p.
 +
 
 +
(g) Prove that every proper subgroup of G is cyclic.
 +
 
 +
(h) For each positive divisor d of p2 q, determine the number of elements
 +
of G having order d.
 +
2
 +
*Post link to solution/discussion page here
 +
*post link to other solution/discussion page here.
 +
----
 +
[[2013 Summer MA 598A Weigel|Back to 2013 Summer MA 598A Weigel]]

Latest revision as of 08:27, 12 June 2013


Assignment #2, 06.12.13: Group Theory II

pdf File


Please post comments, questions, attempted or completed solutions, etc. here.  If you want to post a solution, create a new page using the toolbar on the left.


(1)

Suppose that G is a group and that the set {x ∈ G | |x| = 2} has exactly one element. Show that G is abelian.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

2

You are given that G is group of order 24 which is not isomorphic to S4 . Show that one of its Sylow subgroups is normal.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

3

Determine the number of pairwise non-isomorphic groups of order pq, where p and q are prime.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

4

Let ϕ : G → H be a homomorphism of groups. Let G # and H # denote the set of conjugacy classes in G and H , respectively.

(a) Show that ϕ induces a map ϕ# : G# → H#.

(b) Show that if ϕ# is injective, so is ϕ.

(c) Show that if ϕ# is surjective, and H is finite, then ϕ is surjective. (Hint: one of the problems from PS1 might be useful here...)

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

5

Let G be a group of order 56 with a normal 2-Sylow subgroup Q, and let P be a 7-Sylow subgroup of G. Show that G∼= P × Q or Q ∼= Z × Z × Z.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

6

Let G be a group and H a subgroup of G with finite index. Show that there exists a normal subgroup N of G of finite index with N ⊂ H.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

7

Let G be a finite group and P a p-Sylow subgroup of G for some prime p. (You may assume that p divides |G|. I haven’t had enough coffee to think about the implications of the vacuous case...)

(a) Assume p=2 and P is cyclic. Show that the normalizer and centralizer of P coincide.

(b) Show that this may not hold if p = 2 but P is not cyclic.

(c) Show that the first statement does not hold regardless of cyclicity if p ̸= 2.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

8

Let G be a finite group and ϕ : G → G a homomorphism. Show that ϕ(P ) is a subgroup of P whenever P is a normal Sylow subgroup.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

9

(a) Find all simple groups of order 101.

(b) Find all simple groups of order 102.

(c) Find all groups of order 175.

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.----

10

Let p and q be primes such that p divides q − 1.

(a) Show that there exists a group G with generators x and y and relations xp 2 = 1, yq = 1, xyx−1 = ya , where a is an integer not congruent to 1 mod q, but ap ∼= 1(mod q).

(b) Prove that the Sylow q-subgroup Sq ⊂ G is normal.

(c) Prove that G/Sq is cyclic; and deduce that G has a unique subgroup H of order pq.

(d) Prove that H is cyclic.

(e) Prove that any subgroup of G with order p is contained in H , hence is generated by xp and is contained in the center of G.

(f ) Prove that the center of G is the unique subgroup of G having order p.

(g) Prove that every proper subgroup of G is cyclic.

(h) For each positive divisor d of p2 q, determine the number of elements of G having order d. 2

  • Post link to solution/discussion page here
  • post link to other solution/discussion page here.

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