Hilber space and linear bounded operator

braindead101 · Feb 5, 2008

Let H be a Hilbert space and A: H-> H be a Linear Bounded Operator. Show that A can be written as A=B+C where B and C are Linear Bounded Operators and B is self-adjoint and C is skew.

This is suppose to be an easy question but I'm not sure where to start.
I know that self-adjoint is (B*=B) and skew is (C*=-C) but can someone show this?

morphism · Feb 5, 2008

Hint: A+A* is self-adjoint. Can you find a similar expression that's skew? Then what?

braindead101 · Feb 5, 2008

A-A* is skew
so A = B+B* + C-C*?

morphism · Feb 5, 2008

What are B and C?

HallsofIvy · Feb 5, 2008

braindead101 said:

A-A* is skew
so A = B+B* + C-C*?

Okay, you know that A+ A* is self-adjoint and that A- A* is skew. Your second sentence is non-sense because you have not defined B and C. A is the only operator you have! Your answer must be entirely in terms of A.

braindead101 · Feb 5, 2008

ohh, so B can be rewritten as A+A*, and C can be rewritten as A-A*?

braindead101 · Feb 5, 2008

in the question, doesn't it say that B and C are linear bounded operators? i thought this meant i could write the whole B+B* thing

Hilber space and linear bounded operator

1. What is a Hilbert space?

2. What is the significance of a Hilbert space?

3. What is a linear bounded operator?

4. How are Hilbert spaces and linear bounded operators related?

5. What are some examples of linear bounded operators?

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