Questions tagged [functional-analysis]

Functional analysis, the study of infinite-dimensional vector spaces, often with additional structures (inner product, norm, topology), with typical examples given by function spaces. The subject also includes the study of linear and non-linear operators on these spaces and other topics. For basic questions about functions use more suitable tags like (functions), (functional-equations) or (elementary-set-theory).

Functional analysis is the study of infinite-dimensional vector spaces, often with additional structures (inner product, norm, topology), with typical examples given by function spaces. The subject also includes the study of linear and non-linear operators on these spaces, including spectral theory, as well as measure, integration, probability on infinite dimensions, and also manifolds with local structure modeled by these vector spaces.

For basic questions about functions use more suitable tags like functions, functional-equations or elementary-set-theory.

54830 questions

324

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5 answers

Norms Induced by Inner Products and the Parallelogram Law

Let $ V $ be a normed vector space (over $\mathbb{R}$, say, for simplicity) with norm $ \lVert\cdot\rVert$. It's not hard to show that if $\lVert \cdot \rVert = \sqrt{\langle \cdot, \cdot \rangle}$ for some (real) inner product $\langle \cdot, \cdot…

linear-algebra functional-analysis normed-spaces inner-products

asked Feb 13 '11 at 04:37

Hans Parshall

6,506

271

votes

30 answers

Your favourite application of the Baire Category Theorem

I think I remember reading somewhere that the Baire Category Theorem is supposedly quite powerful. Whether that is true or not, it's my favourite theorem (so far) and I'd love to see some applications that confirm its neatness and/or power. Here's…

general-topology functional-analysis big-list baire-category

asked Jul 02 '12 at 13:18

Rudy the Reindeer

48,301

236

votes

7 answers

$L^p$ and $L^q$ space inclusion

Let $(X, \mathcal B, m)$ be a measure space. For $1 \leq p < q \leq \infty$, under what condition is it true that $L^q(X, \mathcal B, m) \subset L^p(X, \mathcal B, m)$ and what is a counterexample in the case the condition is not satisfied?

functional-analysis measure-theory lebesgue-integral lp-spaces

asked Sep 20 '11 at 10:11

Confused

2,369

236

votes

2 answers

Does the open mapping theorem imply the Baire category theorem?

A nice observation by C.E. Blair1, 2, 3 shows that the Baire category theorem for complete metric spaces is equivalent to the axiom of (countable) dependent choice. On the other hand, the three classical consequences of the Baire category theorem in…

functional-analysis set-theory banach-spaces axiom-of-choice baire-category

asked May 19 '12 at 03:33

t.b.

80,986

212

votes

4 answers

Limit of $L^p$ norm

Could someone help me prove that given a finite measure space $(X, \mathcal{M}, \sigma)$ and a measurable function $f:X\to\mathbb{R}$ in $L^\infty$ and some $L^q$, $\displaystyle\lim_{p\to\infty}\|f\|_p=\|f\|_\infty$? I don't know where to start.

real-analysis functional-analysis limits measure-theory lp-spaces

asked Nov 22 '12 at 19:51

Parakee

3,474

151

votes

4 answers

Is it possible for a function to be in $L^p$ for only one $p$?

I'm wondering if it's possible for a function to be an $L^p$ space for only one value of $p \in [1,\infty)$ (on either a bounded domain or an unbounded domain). One can use interpolation to show that if a function is in two $L^p$ spaces, (e.g. $p_1$…

real-analysis measure-theory functional-analysis banach-spaces examples-counterexamples

asked Aug 02 '11 at 18:34

user1736

8,993

124

votes

1 answer

Continuous projections on $\ell_1$ with norm $>1$

I was trying to find papers and articles about non-contractive continuous projections on $\ell_1(S)$ where $S$ is an arbitrary set. If it is not studied yet, I would like to know results for the case $S=\mathbb{N}$. I've found one quite general…

reference-request functional-analysis banach-spaces

asked Apr 06 '12 at 21:26

Norbert

58,398

121

votes

1 answer

Lebesgue measure theory vs differential forms?

I am currently reading various differential geometry books. From what I understand differential forms allow us to generalize calculus to manifolds and thus perform integration on manifolds. I gather that it is, in general, completely distinct from…

functional-analysis measure-theory differential-geometry partial-differential-equations differential-forms

asked Jul 20 '18 at 07:18

sonicboom

10,273
15
54
87

120

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6 answers

Why don't analysts do category theory?

I'm a mathematics student in abstract algebra and algebraic geometry. Most of my books cover a great deal of category theory and it is an essential tool in understanding these two subjects. Recently, I started taking some functional analysis courses…

analysis functional-analysis soft-question category-theory

asked Jul 10 '12 at 21:01

gary

1,201

118

votes

16 answers

Good book for self study of functional analysis

I am a EE grad. student who has had one undergraduate course in real analysis (which was pretty much the only pure math course that I have ever done). I would like to do a self study of some basic functional analysis so that I can be better prepared…

functional-analysis reference-request book-recommendation

asked Oct 22 '10 at 16:14

EVK

1,339

118

votes

8 answers

Understanding of the theorem that all norms are equivalent in finite dimensional vector spaces

The following is a well-known result in functional analysis: If the vector space $X$ is finite dimensional, all norms are equivalent. Here is the standard proof in one textbook. First, pick a norm for $X$, say…

linear-algebra functional-analysis

asked Aug 15 '11 at 21:50

user9464

116

votes

5 answers

What is the difference between a Hamel basis and a Schauder basis?

Let $V$ be a vector space with infinite dimensions. A Hamel basis for $V$ is an ordered set of linearly independent vectors $\{ v_i \ | \ i \in I\}$ such that any $v \in V$ can be expressed as a finite linear combination of the $v_i$'s; so $\{ v_i \…

linear-algebra functional-analysis schauder-basis hamel-basis

asked Jan 07 '14 at 13:15

Lor

5,738

113

votes

3 answers

Is the derivative the natural logarithm of the left-shift?

(Disclaimer: I'm a high school student, and my knowledge of mathematics extends only to some elementary high school calculus. I don't know if what I'm about to do is valid mathematics.) I noticed something really neat the other day. Suppose we…

calculus functional-analysis power-series taylor-expansion finite-differences

asked Jun 24 '13 at 14:04

David Zhang

9,125
2
43
64

111

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2 answers

If $f_k \to f$ a.e. and the $L^p$ norms converge, then $f_k \to f$ in $L^p$

Let $1\leq p < \infty$. Suppose that $\{f_k, f\} \subset L^p$ (the domain here does not necessarily have to be finite), $f_k \to f$ almost everywhere, and $\|f_k\|_{L^p} \to \|f\|_{L^p}$. Why is it the case that $$\|f_k - f\|_{L^p} \to 0?$$ A…

real-analysis functional-analysis measure-theory convergence-divergence lp-spaces

asked Jul 14 '11 at 20:58

user1736

8,993

108

votes

1 answer

Relations between p norms

The $p$-norm on $\mathbb R^n$ is given by $\|x\|_{p}=\big(\sum_{k=1}^n |x_{k}|^p\big)^{1/p}$. For $0 < p < q$ it can be shown that $\|x\|_p\geq\|x\|_q$ (1, 2). It appears that in $\mathbb{R}^n$ a number of opposite inequalities can also be obtained.…

real-analysis functional-analysis normed-spaces

asked Oct 21 '12 at 14:39

PianoEntropy

2,776

2 3

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