It follows from the above inequalities that for c C 1
|
|
- Sheryl Bradley
- 5 years ago
- Views:
Transcription
1 3 Spaces L p 1. In this part we fix a measure space (, A, µ) (we may assume that µ is complete), and consider the A -measurable functions on it. 2. For f L 1 (, µ) set f 1 = f L 1 = f L 1 (,µ) = f dµ. It follows from the above inequalities that for c C 1 With more work we derive that f + g 1 f 1 + g 1, cf 1 = c f 1. f 1 = 0 f = 0 µ a.e.. Factorising by the subspace of functions equal 0 µ -a.e., or redefining the symbol = between to functions, we conclude that L 1 (, µ) is a normed vector space. 3. Definition of a normed space from B, Ch.2 (B-2). Prove that spaces in B-2, Examples 1, parts 1, 2, 4, 5, 9 (cases l 1, l, and c 0 only ), 13, 14, are normed. Sets B(x 0, r), B(x 0, r), and S(x 0, r) in a normed space V. Prove that B(x 0, r) is the closure of B(x 0, r). 4. Complete (Banach) spaces, B-2. Which spaces from the above examples are complete? Provide proofs. 5. We show that L 1 (, µ) is a Banach space. Theorem 1 For any sequence {f j }, f j L 1 (, µ), satisfying there exists f L 1 (, µ) such that f j f k 1 0, j, k, f j f 1 0, j. Proof. 1. First we need to construct f, whose existence is claimed by the theorem. Utilising the Cauchy condition find a subsequence {j n } such that f jn+1 f jn 1 < 2 n. Then for the increasing sequence F N = N f jn+1 f jn 1
2 we have F N dµ 1 N. Therefore by the monotone convergence theorem f jn+1 f jn = lim N F N = F, F L 1, F dµ 1. This implies in particular, that F < µ -a.e. Consequently the series ( fjn+1 (x) f j n (x) ) converges absolutely for any x \ E with µ(e) = 0. For such x we define def ( f(x) = f n1 (x) + (x) f fjn+1 j n (x) ) = lim N f j N (x). Thus we have constructed f L 1 as the µ -a.e. limit of a certain subsequence {f jn }. 2. Now we show that f f j 1 0 as j. In fact, fix any ε > 0. Find N ε such that f m f n dµ < ε m, n > N ε. Take any n > N ε and test this estimate with m = j N from the previous step. By the Fatou s lemma derive f f n dµ lim inf f jn f n dµ N ε. Since this holds for any n > N ε, the theorem is proved. 6. Let X = (V, ) be a normed space. Prove that X is complete if and only if for any nested sequence of closed balls { B(x n, r n ) } (this means B(x n, r n ) B(x n+1, r n+1 ) for n = 1, 2,... ), such that r n 0 as n, there exists a unique x V for which B(x n, r n ) = {x }. 2
3 This implication is sometimes called the principle of nested balls. 7. Series in normed and Banach spaces, B-2. Give an example of a convergent series in l 2, which does not converge absolutely (cf. discussion after Theorem 8 in B-2). We saw that the completeness is equivalent to the principle of nested balls. Also the completeness of a normed space is equivalent to the implication Theorem 8, B-2. {absolute convergence} = {convergence}, 8. Dense sets in a normed space, completion of a normed space V, Theorem 7 from B-2. Denote by S the set of all simple functions equipped with the norm 1. Prove that S is a normed space. Prove that L 1 is (isometric to) the completion of S. Prove that in the case of = R n, µ = λ n the space S is not complete. Give an example of (, A, µ) for which S is complete. 9. Jensen s inequality, Theorem 2, B-1, and Young s inequality, Theorem 3, B The Hölder s and Minkowski s discrete inequalities, Theorems 6, 7, B-1, with the Hölder-conjugate exponents 1 p, p (or p and q ) p = p p 1, p = p p 1, 1 p + 1 p = Prove that the sets l p n and l p, 1 p, Examples 6 and 9, Chapter 2, are Banach spaces. Prove that l p1 l p2 if 1 p 1 p 2, and that for any sequence x. x l p 2 x l p For any p, 1 p <, define L p = L p (, µ) to be the sets of functions f : C (or f : R ) such that For 1 p < define (i) (ii) f is A measurable; f p dµ <. ( 1/p f p = f L p = f L p (,µ) = f dµ) p. 3
4 Theorem 2 Let p satisfy 1 < p <. For all f L p, g L p Hölder s inequality holds: fg dµ f p g p. For all u, v L p the Minkovski s inequality holds: the u + v p u p + v p. Prove the theorem following the proofs of the discrete Hölder s and Minkowski s inequalities. For 1 p < use the Minkowski s inequality to prove that (L p, p ) is a normed vector space. 13. Let µ() <. Define the average of f by writing f dµ = 1 f dµ. µ() Prove that L p2 L p1 if 1 p 1 p 2 < (notice, that the inclusions are the opposite compared to the l p -spaces). For that establish the following inequality for the averaged L p -norms: ( 1/p1 ( 1/p2 u dµ) p1 u dµ) p2, p 1 p 2, u L p2. Prove that L p2 L p1, p 1 p 2, in the case µ() =. 14. Adapt the proof of Theorem 1 and establish that L p is a complete normed space if 1 < p <. 15. For an A -measurable function f set ess sup f = inf{c : µ({f > C}) = 0} = inf{c : f(x) C for µ-almost all x}. Hence the more careful notations should be ess supf.,µ Prove that the inf here can be replaced by min, provided it is a finite number. 16. For an A -measurable function f : C define f = f L = f L (,µ) 4 def = ess sup,µ f.
5 define L = L (, µ) to be the sets of functions f : C (or f : R ) such that (i) f is A measurable; (ii) f <. Prove that L is a normed vector space. 17. Let f, f 1, f 2,... be A -measurable. Prove that f j f 0, j, if and only if there exists E A, µ(e) = 0, such that f j f uniformly on \ E as j. 18. Using the argument from the proof of the previous statement show that L (, µ) is a Banach space. 19. Prove the Hölder s and Minkowski s inequalities for all p, 1 p. Prove that L p2 (, µ) L p1 (, µ) for 1 p 1 p 2 provided µ() <. 20. The space L is in many asects the limit case of L p. For example, prove that if µ() <, then lim f p = f. p 5
It follows from the above inequalities that for c C 1
3 Spaces L p 1. Appearance of normed spaces. In this part we fix a measure space (, A, µ) (we may assume that µ is complete), and consider the A - measurable functions on it. 2. For f L 1 (, µ) set f 1
More informationTHEOREMS, ETC., FOR MATH 515
THEOREMS, ETC., FOR MATH 515 Proposition 1 (=comment on page 17). If A is an algebra, then any finite union or finite intersection of sets in A is also in A. Proposition 2 (=Proposition 1.1). For every
More informationReal Analysis Notes. Thomas Goller
Real Analysis Notes Thomas Goller September 4, 2011 Contents 1 Abstract Measure Spaces 2 1.1 Basic Definitions........................... 2 1.2 Measurable Functions........................ 2 1.3 Integration..............................
More informationl(y j ) = 0 for all y j (1)
Problem 1. The closed linear span of a subset {y j } of a normed vector space is defined as the intersection of all closed subspaces containing all y j and thus the smallest such subspace. 1 Show that
More informationL p Spaces and Convexity
L p Spaces and Convexity These notes largely follow the treatments in Royden, Real Analysis, and Rudin, Real & Complex Analysis. 1. Convex functions Let I R be an interval. For I open, we say a function
More informationFunctional Analysis Exercise Class
Functional Analysis Exercise Class Week 9 November 13 November Deadline to hand in the homeworks: your exercise class on week 16 November 20 November Exercises (1) Show that if T B(X, Y ) and S B(Y, Z)
More informationExamples of Dual Spaces from Measure Theory
Chapter 9 Examples of Dual Spaces from Measure Theory We have seen that L (, A, µ) is a Banach space for any measure space (, A, µ). We will extend that concept in the following section to identify an
More informationReal Variables: Solutions to Homework 9
Real Variables: Solutions to Homework 9 Theodore D Drivas November, 20 xercise 0 Chapter 8, # : For complex-valued, measurable f, f = f + if 2 with f i real-valued and measurable, we have f = f + i f 2
More informationChapter 6. Integration. 1. Integrals of Nonnegative Functions. a j µ(e j ) (ca j )µ(e j ) = c X. and ψ =
Chapter 6. Integration 1. Integrals of Nonnegative Functions Let (, S, µ) be a measure space. We denote by L + the set of all measurable functions from to [0, ]. Let φ be a simple function in L +. Suppose
More information2 (Bonus). Let A X consist of points (x, y) such that either x or y is a rational number. Is A measurable? What is its Lebesgue measure?
MA 645-4A (Real Analysis), Dr. Chernov Homework assignment 1 (Due 9/5). Prove that every countable set A is measurable and µ(a) = 0. 2 (Bonus). Let A consist of points (x, y) such that either x or y is
More informationRecall that if X is a compact metric space, C(X), the space of continuous (real-valued) functions on X, is a Banach space with the norm
Chapter 13 Radon Measures Recall that if X is a compact metric space, C(X), the space of continuous (real-valued) functions on X, is a Banach space with the norm (13.1) f = sup x X f(x). We want to identify
More information2 Lebesgue integration
2 Lebesgue integration 1. Let (, A, µ) be a measure space. We will always assume that µ is complete, otherwise we first take its completion. The example to have in mind is the Lebesgue measure on R n,
More information3 (Due ). Let A X consist of points (x, y) such that either x or y is a rational number. Is A measurable? What is its Lebesgue measure?
MA 645-4A (Real Analysis), Dr. Chernov Homework assignment 1 (Due ). Show that the open disk x 2 + y 2 < 1 is a countable union of planar elementary sets. Show that the closed disk x 2 + y 2 1 is a countable
More informationAnalysis Comprehensive Exam Questions Fall 2008
Analysis Comprehensive xam Questions Fall 28. (a) Let R be measurable with finite Lebesgue measure. Suppose that {f n } n N is a bounded sequence in L 2 () and there exists a function f such that f n (x)
More informationON SUBSPACES OF NON-REFLEXIVE ORLICZ SPACES
ON SUBSPACES OF NON-REFLEXIVE ORLICZ SPACES J. ALEXOPOULOS May 28, 997 ABSTRACT. Kadec and Pelczýnski have shown that every non-reflexive subspace of L (µ) contains a copy of l complemented in L (µ). On
More informationMATHS 730 FC Lecture Notes March 5, Introduction
1 INTRODUCTION MATHS 730 FC Lecture Notes March 5, 2014 1 Introduction Definition. If A, B are sets and there exists a bijection A B, they have the same cardinality, which we write as A, #A. If there exists
More information1/12/05: sec 3.1 and my article: How good is the Lebesgue measure?, Math. Intelligencer 11(2) (1989),
Real Analysis 2, Math 651, Spring 2005 April 26, 2005 1 Real Analysis 2, Math 651, Spring 2005 Krzysztof Chris Ciesielski 1/12/05: sec 3.1 and my article: How good is the Lebesgue measure?, Math. Intelligencer
More informationFunctional Analysis Winter 2018/2019
Functional Analysis Winter 2018/2019 Peer Christian Kunstmann Karlsruher Institut für Technologie (KIT) Institut für Analysis Englerstr. 2, 76131 Karlsruhe e-mail: peer.kunstmann@kit.edu These lecture
More informationAnalysis III Theorems, Propositions & Lemmas... Oh My!
Analysis III Theorems, Propositions & Lemmas... Oh My! Rob Gibson October 25, 2010 Proposition 1. If x = (x 1, x 2,...), y = (y 1, y 2,...), then is a distance. ( d(x, y) = x k y k p Proposition 2. In
More informationLecture Notes in Functional Analysis
Lecture Notes in Functional Analysis Please report any mistakes, misprints or comments to aulikowska@mimuw.edu.pl LECTURE 1 Banach spaces 1.1. Introducton to Banach Spaces Definition 1.1. Let X be a K
More informationAnalysis Comprehensive Exam Questions Fall F(x) = 1 x. f(t)dt. t 1 2. tf 2 (t)dt. and g(t, x) = 2 t. 2 t
Analysis Comprehensive Exam Questions Fall 2. Let f L 2 (, ) be given. (a) Prove that ( x 2 f(t) dt) 2 x x t f(t) 2 dt. (b) Given part (a), prove that F L 2 (, ) 2 f L 2 (, ), where F(x) = x (a) Using
More informationAdvanced Analysis Qualifying Examination Department of Mathematics and Statistics University of Massachusetts. Monday, August 26, 2013
NAME: Advanced Analysis Qualifying Examination Department of Mathematics and Statistics University of Massachusetts Monday, August 26, 2013 Instructions 1. This exam consists of eight (8) problems all
More informationNormed Vector Spaces and Double Duals
Normed Vector Spaces and Double Duals Mathematics 481/525 In this note we look at a number of infinite-dimensional R-vector spaces that arise in analysis, and we consider their dual and double dual spaces
More information6. Duals of L p spaces
6 Duals of L p spaces This section deals with the problem if identifying the duals of L p spaces, p [1, ) There are essentially two cases of this problem: (i) p = 1; (ii) 1 < p < The major difference between
More informationOptimization and Optimal Control in Banach Spaces
Optimization and Optimal Control in Banach Spaces Bernhard Schmitzer October 19, 2017 1 Convex non-smooth optimization with proximal operators Remark 1.1 (Motivation). Convex optimization: easier to solve,
More information0.1 Pointwise Convergence
2 General Notation 0.1 Pointwise Convergence Let {f k } k N be a sequence of functions on a set X, either complex-valued or extended real-valued. We say that f k converges pointwise to a function f if
More informationMATH MEASURE THEORY AND FOURIER ANALYSIS. Contents
MATH 3969 - MEASURE THEORY AND FOURIER ANALYSIS ANDREW TULLOCH Contents 1. Measure Theory 2 1.1. Properties of Measures 3 1.2. Constructing σ-algebras and measures 3 1.3. Properties of the Lebesgue measure
More informationFunctional Analysis, Stein-Shakarchi Chapter 1
Functional Analysis, Stein-Shakarchi Chapter 1 L p spaces and Banach Spaces Yung-Hsiang Huang 018.05.1 Abstract Many problems are cited to my solution files for Folland [4] and Rudin [6] post here. 1 Exercises
More informationFunctional Analysis, Math 7320 Lecture Notes from August taken by Yaofeng Su
Functional Analysis, Math 7320 Lecture Notes from August 30 2016 taken by Yaofeng Su 1 Essentials of Topology 1.1 Continuity Next we recall a stronger notion of continuity: 1.1.1 Definition. Let (X, d
More informationMAT 570 REAL ANALYSIS LECTURE NOTES. Contents. 1. Sets Functions Countability Axiom of choice Equivalence relations 9
MAT 570 REAL ANALYSIS LECTURE NOTES PROFESSOR: JOHN QUIGG SEMESTER: FALL 204 Contents. Sets 2 2. Functions 5 3. Countability 7 4. Axiom of choice 8 5. Equivalence relations 9 6. Real numbers 9 7. Extended
More information5 Measure theory II. (or. lim. Prove the proposition. 5. For fixed F A and φ M define the restriction of φ on F by writing.
5 Measure theory II 1. Charges (signed measures). Let (Ω, A) be a σ -algebra. A map φ: A R is called a charge, (or signed measure or σ -additive set function) if φ = φ(a j ) (5.1) A j for any disjoint
More information6 Classical dualities and reflexivity
6 Classical dualities and reflexivity 1. Classical dualities. Let (Ω, A, µ) be a measure space. We will describe the duals for the Banach spaces L p (Ω). First, notice that any f L p, 1 p, generates the
More informationL p Functions. Given a measure space (X, µ) and a real number p [1, ), recall that the L p -norm of a measurable function f : X R is defined by
L p Functions Given a measure space (, µ) and a real number p [, ), recall that the L p -norm of a measurable function f : R is defined by f p = ( ) /p f p dµ Note that the L p -norm of a function f may
More informationIf Y and Y 0 satisfy (1-2), then Y = Y 0 a.s.
20 6. CONDITIONAL EXPECTATION Having discussed at length the limit theory for sums of independent random variables we will now move on to deal with dependent random variables. An important tool in this
More informationOverview of normed linear spaces
20 Chapter 2 Overview of normed linear spaces Starting from this chapter, we begin examining linear spaces with at least one extra structure (topology or geometry). We assume linearity; this is a natural
More informationLecture 4 Lebesgue spaces and inequalities
Lecture 4: Lebesgue spaces and inequalities 1 of 10 Course: Theory of Probability I Term: Fall 2013 Instructor: Gordan Zitkovic Lecture 4 Lebesgue spaces and inequalities Lebesgue spaces We have seen how
More informationPROBLEMS. (b) (Polarization Identity) Show that in any inner product space
1 Professor Carl Cowen Math 54600 Fall 09 PROBLEMS 1. (Geometry in Inner Product Spaces) (a) (Parallelogram Law) Show that in any inner product space x + y 2 + x y 2 = 2( x 2 + y 2 ). (b) (Polarization
More informationSection Integration of Nonnegative Measurable Functions
18.2. Integration of Nonnegative Measurable Functions 1 Section 18.2. Integration of Nonnegative Measurable Functions Note. We now define integrals of measurable functions on measure spaces. Though similar
More informationSobolev spaces. May 18
Sobolev spaces May 18 2015 1 Weak derivatives The purpose of these notes is to give a very basic introduction to Sobolev spaces. More extensive treatments can e.g. be found in the classical references
More informationTERENCE TAO S AN EPSILON OF ROOM CHAPTER 3 EXERCISES. 1. Exercise 1.3.1
TRNC TAO S AN PSILON OF ROOM CHAPTR 3 RCISS KLLR VANDBOGRT 1. xercise 1.3.1 We merely consider the inclusion f f, viewed as an element of L p (, χ, µ), where all nonmeasurable subnull sets are given measure
More informationA SHORT INTRODUCTION TO BANACH LATTICES AND
CHAPTER A SHORT INTRODUCTION TO BANACH LATTICES AND POSITIVE OPERATORS In tis capter we give a brief introduction to Banac lattices and positive operators. Most results of tis capter can be found, e.g.,
More informationi. v = 0 if and only if v 0. iii. v + w v + w. (This is the Triangle Inequality.)
Definition 5.5.1. A (real) normed vector space is a real vector space V, equipped with a function called a norm, denoted by, provided that for all v and w in V and for all α R the real number v 0, and
More informationLebesgue Integration: A non-rigorous introduction. What is wrong with Riemann integration?
Lebesgue Integration: A non-rigorous introduction What is wrong with Riemann integration? xample. Let f(x) = { 0 for x Q 1 for x / Q. The upper integral is 1, while the lower integral is 0. Yet, the function
More informationSobolev Spaces. Chapter Hölder spaces
Chapter 2 Sobolev Spaces Sobolev spaces turn out often to be the proper setting in which to apply ideas of functional analysis to get information concerning partial differential equations. Here, we collect
More informationProbability and Measure
Part II Year 2018 2017 2016 2015 2014 2013 2012 2011 2010 2009 2008 2007 2006 2005 2018 84 Paper 4, Section II 26J Let (X, A) be a measurable space. Let T : X X be a measurable map, and µ a probability
More informationPart II Probability and Measure
Part II Probability and Measure Theorems Based on lectures by J. Miller Notes taken by Dexter Chua Michaelmas 2016 These notes are not endorsed by the lecturers, and I have modified them (often significantly)
More informationABSTRACT INTEGRATION CHAPTER ONE
CHAPTER ONE ABSTRACT INTEGRATION Version 1.1 No rights reserved. Any part of this work can be reproduced or transmitted in any form or by any means. Suggestions and errors are invited and can be mailed
More informationFunctional Analysis. Martin Brokate. 1 Normed Spaces 2. 2 Hilbert Spaces The Principle of Uniform Boundedness 32
Functional Analysis Martin Brokate Contents 1 Normed Spaces 2 2 Hilbert Spaces 2 3 The Principle of Uniform Boundedness 32 4 Extension, Reflexivity, Separation 37 5 Compact subsets of C and L p 46 6 Weak
More informationThe Banach Tarski Paradox and Amenability Lecture 20: Invariant Mean implies Reiter s Property. 11 October 2012
The Banach Tarski Paradox and Amenability Lecture 20: Invariant Mean implies Reiter s Property 11 October 2012 Invariant means and amenability Definition Let be a locally compact group. An invariant mean
More informationEXAMINATION SOLUTIONS
1 Marks & (a) If f is continuous on (, ), then xf is continuously differentiable 5 on (,) and F = (xf)/x as well (as the quotient of two continuously differentiable functions with the denominator never
More informationFUNCTIONAL ANALYSIS LECTURE NOTES: COMPACT SETS AND FINITE-DIMENSIONAL SPACES. 1. Compact Sets
FUNCTIONAL ANALYSIS LECTURE NOTES: COMPACT SETS AND FINITE-DIMENSIONAL SPACES CHRISTOPHER HEIL 1. Compact Sets Definition 1.1 (Compact and Totally Bounded Sets). Let X be a metric space, and let E X be
More informationMATH 426, TOPOLOGY. p 1.
MATH 426, TOPOLOGY THE p-norms In this document we assume an extended real line, where is an element greater than all real numbers; the interval notation [1, ] will be used to mean [1, ) { }. 1. THE p
More informationANALYSIS QUALIFYING EXAM FALL 2016: SOLUTIONS. = lim. F n
ANALYSIS QUALIFYING EXAM FALL 206: SOLUTIONS Problem. Let m be Lebesgue measure on R. For a subset E R and r (0, ), define E r = { x R: dist(x, E) < r}. Let E R be compact. Prove that m(e) = lim m(e /n).
More information1 Inner Product Space
Ch - Hilbert Space 1 4 Hilbert Space 1 Inner Product Space Let E be a complex vector space, a mapping (, ) : E E C is called an inner product on E if i) (x, x) 0 x E and (x, x) = 0 if and only if x = 0;
More informationA brief introduction to N functions and Orlicz function spaces. John Alexopoulos Kent State University, Stark Campus
A brief introduction to N functions and Orlicz function spaces John Alexopoulos Kent State University, Stark Campus March 12, 24 2 Contents 1 Introduction: Uniform integrability 5 1.1 Definitions.....................................
More information212a1214Daniell s integration theory.
212a1214 Daniell s integration theory. October 30, 2014 Daniell s idea was to take the axiomatic properties of the integral as the starting point and develop integration for broader and broader classes
More informationElementary theory of L p spaces
CHAPTER 3 Elementary theory of L saces 3.1 Convexity. Jensen, Hölder, Minkowski inequality. We begin with two definitions. A set A R d is said to be convex if, for any x 0, x 1 2 A x = x 0 + (x 1 x 0 )
More informationRiesz Representation Theorems
Chapter 6 Riesz Representation Theorems 6.1 Dual Spaces Definition 6.1.1. Let V and W be vector spaces over R. We let L(V, W ) = {T : V W T is linear}. The space L(V, R) is denoted by V and elements of
More informationGRAND SOBOLEV SPACES AND THEIR APPLICATIONS TO VARIATIONAL PROBLEMS
LE MATEMATICHE Vol. LI (1996) Fasc. II, pp. 335347 GRAND SOBOLEV SPACES AND THEIR APPLICATIONS TO VARIATIONAL PROBLEMS CARLO SBORDONE Dedicated to Professor Francesco Guglielmino on his 7th birthday W
More informationFUNCTIONAL ANALYSIS CHRISTIAN REMLING
FUNCTIONAL ANALYSIS CHRISTIAN REMLING Contents 1. Metric and topological spaces 2 2. Banach spaces 12 3. Consequences of Baire s Theorem 30 4. Dual spaces and weak topologies 34 5. Hilbert spaces 50 6.
More informationBounded uniformly continuous functions
Bounded uniformly continuous functions Objectives. To study the basic properties of the C -algebra of the bounded uniformly continuous functions on some metric space. Requirements. Basic concepts of analysis:
More informationProblem Set 6: Solutions Math 201A: Fall a n x n,
Problem Set 6: Solutions Math 201A: Fall 2016 Problem 1. Is (x n ) n=0 a Schauder basis of C([0, 1])? No. If f(x) = a n x n, n=0 where the series converges uniformly on [0, 1], then f has a power series
More informationCONTENTS. 4 Hausdorff Measure Introduction The Cantor Set Rectifiable Curves Cantor Set-Like Objects...
Contents 1 Functional Analysis 1 1.1 Hilbert Spaces................................... 1 1.1.1 Spectral Theorem............................. 4 1.2 Normed Vector Spaces.............................. 7 1.2.1
More informationMTH 404: Measure and Integration
MTH 404: Measure and Integration Semester 2, 2012-2013 Dr. Prahlad Vaidyanathan Contents I. Introduction....................................... 3 1. Motivation................................... 3 2. The
More information2) Let X be a compact space. Prove that the space C(X) of continuous real-valued functions is a complete metric space.
University of Bergen General Functional Analysis Problems with solutions 6 ) Prove that is unique in any normed space. Solution of ) Let us suppose that there are 2 zeros and 2. Then = + 2 = 2 + = 2. 2)
More informationAn introduction to some aspects of functional analysis
An introduction to some aspects of functional analysis Stephen Semmes Rice University Abstract These informal notes deal with some very basic objects in functional analysis, including norms and seminorms
More informationReview of measure theory
209: Honors nalysis in R n Review of measure theory 1 Outer measure, measure, measurable sets Definition 1 Let X be a set. nonempty family R of subsets of X is a ring if, B R B R and, B R B R hold. bove,
More informationClass Notes for Math 921/922: Real Analysis, Instructor Mikil Foss
University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln Math Department: Class Notes and Learning Materials Mathematics, Department of 200 Class Notes for Math 92/922: Real Analysis,
More informationThe Dirichlet s P rinciple. In this lecture we discuss an alternative formulation of the Dirichlet problem for the Laplace equation:
Oct. 1 The Dirichlet s P rinciple In this lecture we discuss an alternative formulation of the Dirichlet problem for the Laplace equation: 1. Dirichlet s Principle. u = in, u = g on. ( 1 ) If we multiply
More informationMeasure and Integration: Solutions of CW2
Measure and Integration: s of CW2 Fall 206 [G. Holzegel] December 9, 206 Problem of Sheet 5 a) Left (f n ) and (g n ) be sequences of integrable functions with f n (x) f (x) and g n (x) g (x) for almost
More informationContinuous Functions on Metric Spaces
Continuous Functions on Metric Spaces Math 201A, Fall 2016 1 Continuous functions Definition 1. Let (X, d X ) and (Y, d Y ) be metric spaces. A function f : X Y is continuous at a X if for every ɛ > 0
More informationExercise 1. Let f be a nonnegative measurable function. Show that. where ϕ is taken over all simple functions with ϕ f. k 1.
Real Variables, Fall 2014 Problem set 3 Solution suggestions xercise 1. Let f be a nonnegative measurable function. Show that f = sup ϕ, where ϕ is taken over all simple functions with ϕ f. For each n
More informationMidterm 1. Every element of the set of functions is continuous
Econ 200 Mathematics for Economists Midterm Question.- Consider the set of functions F C(0, ) dened by { } F = f C(0, ) f(x) = ax b, a A R and b B R That is, F is a subset of the set of continuous functions
More information18.175: Lecture 3 Integration
18.175: Lecture 3 Scott Sheffield MIT Outline Outline Recall definitions Probability space is triple (Ω, F, P) where Ω is sample space, F is set of events (the σ-algebra) and P : F [0, 1] is the probability
More informationMAT 578 FUNCTIONAL ANALYSIS EXERCISES
MAT 578 FUNCTIONAL ANALYSIS EXERCISES JOHN QUIGG Exercise 1. Prove that if A is bounded in a topological vector space, then for every neighborhood V of 0 there exists c > 0 such that tv A for all t > c.
More informationChapter 4. The dominated convergence theorem and applications
Chapter 4. The dominated convergence theorem and applications The Monotone Covergence theorem is one of a number of key theorems alllowing one to exchange limits and [Lebesgue] integrals (or derivatives
More informationApplied Analysis (APPM 5440): Final exam 1:30pm 4:00pm, Dec. 14, Closed books.
Applied Analysis APPM 44: Final exam 1:3pm 4:pm, Dec. 14, 29. Closed books. Problem 1: 2p Set I = [, 1]. Prove that there is a continuous function u on I such that 1 ux 1 x sin ut 2 dt = cosx, x I. Define
More informationMATH 202B - Problem Set 5
MATH 202B - Problem Set 5 Walid Krichene (23265217) March 6, 2013 (5.1) Show that there exists a continuous function F : [0, 1] R which is monotonic on no interval of positive length. proof We know there
More informationFunctional Analysis Exercise Class
Functional Analysis Exercise Class Week 2 November 6 November Deadline to hand in the homeworks: your exercise class on week 9 November 13 November Exercises (1) Let X be the following space of piecewise
More informationChapter 8. General Countably Additive Set Functions. 8.1 Hahn Decomposition Theorem
Chapter 8 General Countably dditive Set Functions In Theorem 5.2.2 the reader saw that if f : X R is integrable on the measure space (X,, µ) then we can define a countably additive set function ν on by
More informationLebesgue Integration on R n
Lebesgue Integration on R n The treatment here is based loosely on that of Jones, Lebesgue Integration on Euclidean Space We give an overview from the perspective of a user of the theory Riemann integration
More informationREAL ANALYSIS ANALYSIS NOTES. 0: Some basics. Notes by Eamon Quinlan. Liminfs and Limsups
ANALYSIS NOTES Notes by Eamon Quinlan REAL ANALYSIS 0: Some basics Liminfs and Limsups Def.- Let (x n ) R be a sequence. The limit inferior of (x n ) is defined by and, similarly, the limit superior of
More informationMEASURE AND INTEGRATION: LECTURE 15. f p X. < }. Observe that f p
L saes. Let 0 < < and let f : funtion. We define the L norm to be ( ) / f = f dµ, and the sae L to be C be a measurable L (µ) = {f : C f is measurable and f < }. Observe that f = 0 if and only if f = 0
More informationYour first day at work MATH 806 (Fall 2015)
Your first day at work MATH 806 (Fall 2015) 1. Let X be a set (with no particular algebraic structure). A function d : X X R is called a metric on X (and then X is called a metric space) when d satisfies
More informationMath 209B Homework 2
Math 29B Homework 2 Edward Burkard Note: All vector spaces are over the field F = R or C 4.6. Two Compactness Theorems. 4. Point Set Topology Exercise 6 The product of countably many sequentally compact
More informationContinuity. Matt Rosenzweig
Continuity Matt Rosenzweig Contents 1 Continuity 1 1.1 Rudin Chapter 4 Exercises........................................ 1 1.1.1 Exercise 1............................................. 1 1.1.2 Exercise
More information(1) Consider the space S consisting of all continuous real-valued functions on the closed interval [0, 1]. For f, g S, define
Homework, Real Analysis I, Fall, 2010. (1) Consider the space S consisting of all continuous real-valued functions on the closed interval [0, 1]. For f, g S, define ρ(f, g) = 1 0 f(x) g(x) dx. Show that
More informationMTH 503: Functional Analysis
MTH 53: Functional Analysis Semester 1, 215-216 Dr. Prahlad Vaidyanathan Contents I. Normed Linear Spaces 4 1. Review of Linear Algebra........................... 4 2. Definition and Examples...........................
More informationBanach Spaces II: Elementary Banach Space Theory
BS II c Gabriel Nagy Banach Spaces II: Elementary Banach Space Theory Notes from the Functional Analysis Course (Fall 07 - Spring 08) In this section we introduce Banach spaces and examine some of their
More informationAnalysis Finite and Infinite Sets The Real Numbers The Cantor Set
Analysis Finite and Infinite Sets Definition. An initial segment is {n N n n 0 }. Definition. A finite set can be put into one-to-one correspondence with an initial segment. The empty set is also considered
More informationPreparatory Material for the European Intensive Program in Bydgoszcz 2011 Analytical and computer assisted methods in mathematical models
Preparatory Material for the European Intensive Program in Bydgoszcz 2011 Analytical and computer assisted methods in mathematical models September 4{18 Basics on the Lebesgue integral and the divergence
More informationIntroduction to Real Analysis Alternative Chapter 1
Christopher Heil Introduction to Real Analysis Alternative Chapter 1 A Primer on Norms and Banach Spaces Last Updated: March 10, 2018 c 2018 by Christopher Heil Chapter 1 A Primer on Norms and Banach Spaces
More informationRENORMALIZED SOLUTIONS ON QUASI OPEN SETS WITH NONHOMOGENEOUS BOUNDARY VALUES TONI HUKKANEN
RENORMALIZED SOLTIONS ON QASI OPEN SETS WITH NONHOMOGENEOS BONDARY VALES TONI HKKANEN Acknowledgements I wish to express my sincere gratitude to my advisor, Professor Tero Kilpeläinen, for the excellent
More informationProblem set 4, Real Analysis I, Spring, 2015.
Problem set 4, Real Analysis I, Spring, 215. (18) Let f be a measurable finite-valued function on [, 1], and suppose f(x) f(y) is integrable on [, 1] [, 1]. Show that f is integrable on [, 1]. [Hint: Show
More informationCHAPTER VIII HILBERT SPACES
CHAPTER VIII HILBERT SPACES DEFINITION Let X and Y be two complex vector spaces. A map T : X Y is called a conjugate-linear transformation if it is a reallinear transformation from X into Y, and if T (λx)
More informationNotes on Integrable Functions and the Riesz Representation Theorem Math 8445, Winter 06, Professor J. Segert. f(x) = f + (x) + f (x).
References: Notes on Integrable Functions and the Riesz Representation Theorem Math 8445, Winter 06, Professor J. Segert Evans, Partial Differential Equations, Appendix 3 Reed and Simon, Functional Analysis,
More informationFunctional Analysis F3/F4/NVP (2005) Homework assignment 3
Functional Analysis F3/F4/NVP (005 Homework assignment 3 All students should solve the following problems: 1. Section 4.8: Problem 8.. Section 4.9: Problem 4. 3. Let T : l l be the operator defined by
More informationThe Schwartz Space: Tools for Quantum Mechanics and Infinite Dimensional Analysis
Mathematics 2015, 3, 527-562; doi:10.3390/math3020527 Article OPEN ACCESS mathematics ISSN 2227-7390 www.mdpi.com/journal/mathematics The Schwartz Space: Tools for Quantum Mechanics and Infinite Dimensional
More informationINTRODUCTION TO MEASURE THEORY AND LEBESGUE INTEGRATION
1 INTRODUCTION TO MEASURE THEORY AND LEBESGUE INTEGRATION Eduard EMELYANOV Ankara TURKEY 2007 2 FOREWORD This book grew out of a one-semester course for graduate students that the author have taught at
More informationMATH 4200 HW: PROBLEM SET FOUR: METRIC SPACES
MATH 4200 HW: PROBLEM SET FOUR: METRIC SPACES PETE L. CLARK 4. Metric Spaces (no more lulz) Directions: This week, please solve any seven problems. Next week, please solve seven more. Starred parts of
More information