Math Is Fun Forum
You are not logged in.
- Topics: Active | Unanswered
Pages: 1
#1 2009-01-24 05:46:19
- GemmaJ1988
- Member
- Registered: 2008-10-08
- Posts: 39
commutitive group
i have the following question to solve:
suppose G is a group with the property
for all x in G, prove that for all
in G, G is commutitive.
so far ive got:
so
is this enough to show there commutative?
Offline
#2 2009-01-24 06:55:01
- Kurre
- Member
- Registered: 2006-07-18
- Posts: 280
Re: commutitive group
i have the following question to solve:
suppose G is a group with the property
for all x in G, prove that for all
in G, G is commutitive.so far ive got:
so
is this enough to show there commutative?
You are wrong at the underlined equation. For distinct x and y we dont have x*y=e. Only x*x=e and y*y=e.
To prove that G is commutative, with two elements x and y start with x*y, and try to arrive at y*x.
edit: Altough I see now, that a direct way from xy to yx seems hard to find, theres another way to do it. Hint: Since G is a group, we know that G is closed under multiplication. Thus xy is in G and yx is in G.
Last edited by Kurre (2009-01-24 07:04:27)
Offline
#3 2009-01-24 11:50:52
- Ricky
- Moderator
- Registered: 2005-12-04
- Posts: 3,791
Re: commutitive group
The important part of x^2 = e is a little hidden. This is saying that inverse of x is equal to x, for all x in the group. Now expand on what (xy)^-1 is using the Shoes-socks theorem, and it should come out clear as day.
"In the real world, this would be a problem. But in mathematics, we can just define a place where this problem doesn't exist. So we'll go ahead and do that now..."
Offline
#4 2009-01-26 07:09:53
- mathsmypassion
- Member
- Registered: 2008-12-01
- Posts: 33
Re: commutitive group
(x1*x2)*(x1*x2) = e
x1*(x2*x1)*x2 =e / *x2 (operate to the right)
x1*(x2*x1)*e =x2
Now do the same thing to the left with x1
x1* / x1*(x2*x1)=x2
e*(x2*x1) =x1*x2 or
x2*x1 = x1*x2
Q.E.D.
Offline
#5 2009-01-26 07:41:36
- luca-deltodesco
- Member
- Registered: 2006-05-05
- Posts: 1,470
Re: commutitive group
That looks a little messy, i think it's easier to write:
(xy)(xy) = e (since xy is also in G)
x(yx)y = e
x(yx)y² = ey
x(yx) = y
x²(yx) = xy
yx = xy
The Beginning Of All Things To End.
The End Of All Things To Come.
Offline
#6 2009-01-26 10:59:28
- Ricky
- Moderator
- Registered: 2005-12-04
- Posts: 3,791
Re: commutitive group
These computations are fine, but they hide the significance of the problem behind number crunching/trickery.
See what I mean? It directly comes from the fact that the inverse of xy is xy that the group is commutative. You need to remark on the fact that there are two ways to compute the inverse of xy to solve this problem, the above is the straightforward way to do it.
"In the real world, this would be a problem. But in mathematics, we can just define a place where this problem doesn't exist. So we'll go ahead and do that now..."
Offline
#7 2009-01-28 07:15:28
- mathsmypassion
- Member
- Registered: 2008-12-01
- Posts: 33
Re: commutitive group
Thanks luca-deltodensco. Much better the way you wrote it.
Ricky, your solution is very ellegant. The way gemma tried to solve it made me consider a different solution than yours.
Offline
#8 2009-02-20 23:27:00
- GemmaJ1988
- Member
- Registered: 2008-10-08
- Posts: 39
Re: commutitive group
Thankyou guys so much!
I see now where i was going drastically wrong it seems relatively simple now 
Offline
Pages: 1