Give an example where H is not a subgroup.

In summary, to show that H is a subgroup of G, it is necessary to prove that it is closed under multiplication and inverse operations. An example where H is not a subgroup is the group Z+_(4), as it does not satisfy the condition of closure under addition.
  • #1
hsong9
80
1

Homework Statement


If G is an abelian group, show that H = { a in G | a^2=1} is a subgroup of G.
Give an example where H is not a subgroup.


The Attempt at a Solution



For showing H is a subgroup of G, hh' in G and h^-1 in G.
(a^2)(a^2) in G also a = a^-1 in G so H is a subgroup of G.. right?

counterexample is Z+_(4) = {0,1,2,3,4}.. right?

Thanks
 
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  • #2


To show that H is a subgroup you need to show that it's closed under multiplication under H, take h,h' in H then you need to show that (hh')^2=1 which is game in the pond.
The same goes for h^-1 and 1.

For an example where Z+_(4) well if it's Z/4Z then no, cause it doesn't satisfy a+a=0.
 
  • #3


so.. If a = hh', then hh' in H
and (hh')^2 = a^2 = 1 in H... ?
 
  • #4


Not really, (hh')^2=hh'hh'=h^2h'^2 for the last equality I used G being abelian.
 

Related to Give an example where H is not a subgroup.

1. What is a subgroup?

A subgroup is a subset of a group that satisfies all of the group axioms, including closure, associativity, identity, and inverse elements.

2. Can you give an example of a subgroup?

Yes, an example of a subgroup is the set of even integers under addition. This set satisfies all of the group axioms and is a subset of the group of integers.

3. What would be an example where H is not a subgroup?

An example where H is not a subgroup could be the set of positive real numbers under multiplication. This set does not contain the identity element (1) and therefore does not satisfy the identity axiom, making it not a subgroup.

4. How can you prove that H is not a subgroup?

To prove that H is not a subgroup, you can show that it does not satisfy one or more of the group axioms. This could be done by providing a counterexample or by showing that one of the axioms is not satisfied for all elements in H.

5. Is it possible for a subgroup to not have a unique identity element?

No, every subgroup must have a unique identity element, which is also the identity element of the larger group. If a set does not have a unique identity element, it cannot be considered a subgroup.

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