Caracterizing a subspace of L^2

quasar987 · Apr 5, 2008

[SOLVED] Caracterizing a subspace of L^2

Homework Statement

Call M the subspace of L²([0,1]) consisting of all functions of vanishing mean. I.e., u\in M \Rightarrow \int_0^1u(s)ds=0.

I am trying to find the dimension of the orthogonal of M,

M^{\perp}=\{x\in L^2([0,1]):\int_0^1x(s)u(s)ds=0 \ \forall u\in M\}

I would be surprised if M^{\perp} was anything other than the constant functions, but my attempts at a proof have been unsuccessful.

Any idea how to go at this?

quasar987 · Apr 8, 2008

Solved.

morphism · Apr 8, 2008

Was it the (a.e.) constant functions in the end?

Sorry I couldn't help -- been busy with studying for my finals!

Dick · Apr 8, 2008

morphism said:

Was it the (a.e.) constant functions in the end?

Sorry I couldn't help -- been busy with studying for my finals!

How could it be anything else? The set of vanishing mean functions is basically defined as the set of all u(x) such that <u(x),1>=0. L^2 is a norm up to a.e.

morphism · Apr 8, 2008

Well, yeah...

Dick · Apr 8, 2008

morphism said:

Well, yeah...

Nice to talk to an erudite and sophisticated gentleman for a change. Instead of a bonehead. :)

Caracterizing a subspace of L^2

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