Re: Linear algebra with pitfall..
- From: quasi <quasi@xxxxxxxx>
- Date: Sat, 12 Apr 2008 00:42:09 -0500
On Sat, 12 Apr 2008 00:30:52 -0500, quasi <quasi@xxxxxxxx> wrote:
On Sat, 12 Apr 2008 04:09:39 GMT, rob@xxxxxxxxxxxxxx (Rob Johnson)
wrote:
In article <ftp983$mcr$1@xxxxxxxxxxxxxxxx>,
"mina_world" <mina_world@xxxxxxxxxxx> wrote:
A, B in Matrix_2x2.
E is identity matrix.
True or false.
(A+B)(A-B) = E ==> AB = BA.
True.
Since (A+B)(A-B) = E, A-B is invertible. Thus, there is a C so that
(A-B)C = E. Thus, A+B = (A+B)E = (A+B)(A-B)C = EC = C. Therefore,
we have that (A-B)(A+B) = E. This means that
(A+B)(A-B) = E = (A-B)(A+B)
A^2 + BA - AB - B^2 = A^2 + AB - BA - B^2
2 BA = 2 AB
AB = BA
Essentially the same argument, but perhaps slightly simpler to see,
(and what I should have seen right away) is the following ...
(A + B) (A - B) = E
=> A + B and A - B are inverses of each other
=> (A - B) (A + B) = E
=> (A + B) (A - B) = (A - B) (A + B)
=> AB = BA
(after expanding and simplifying)
Here's a quick followup.
If A, B are n x n matrices A,B with complex coefficients such that
A*(B^2) = I
must A commute with B?
quasi
.
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