The following are links to current course information.

- Sample problems for the final.
- Sample problems for the second midterm.
- Sample problems for the first midterm.
- More on parametrized surfaces.
- Limsup by Will.
- Mason Kamb's conjecture about the triangle inequality
- Analytic Inequalities
- Landau's book Foundations of Analysis is an excellent discussion of the creation of real numbers.
- Implicit Function Theorem.
- Young's theorem on mixed partials.
- Exotic examples of critical points: examples I and II.
- Yet another discussion of least squares.
- More on the chain rule.
- Lim sup, A discussion of lim sup.
- An excellent resource Real Mathematical Analysis by Charles Pugh.
- Baire Category theorem
- From Hausdorff's Set Theory:
*"The continuous image of a closed linear segment -- say of the interval T=[0,1] of the real number system is called a continuous curve"; ... In the very next sentence: "But we shall refer to continuous curves as*interval-images*since, as we shall see, they need have little resemblance to our intuitive notion of a curve."* - Intermediate Analysis by John Olmsted is a good reference.
- A quote from Abel
*Cauchy is mad, and there is no way of being on good terms with him, although at present he is the only man who knows how mathematics should be treated. What he does is excellent, but very confused . .* - Real Analysis is a text by John Olmsted that I highly recommend. You may download a copy. If has many good exercises and detailed discussion of subtle points in analysis, but beware that the notation may differ from the notation I will use.
- George Green
- Definition of cosine.
- A Surface area counterexample.
- A counterexample to Tonelli's theorem.
- Dave Duncan's thesis and a discussion of Fubini's theorem.
- Quote from Jacobi.
*Dirichlet alone, not I, nor Cauchy, nor Gauss knows what a completely rigorous mathematical proof is. Rather we learn it first from him. When Gauss says that he has proved something, it is very clear; when Cauchy says it, one can wager as much pro as con; when Dirichlet says it, it is certain ... Quoted in G Schubring, Zur Modernisierung des Studiums der Mathematik in Berlin, 1820-1840.--* - Integrability of sup and inf
- Fundamental theorem of algebra
- Links to 336_18 papers 336_17 papers 336_16 papers 336_15 papers 336_14 papers, 336_13 papers, 336_12 papers, and 336_11 papers.
- A discussion of Tiknonov regularization and least squares.
- Dirichlet-(Heine?)-Lebesgue proof of the uniform continuity of a continuous function on a compact set.
- The connected sets of \( \mathbb{R} \) are intervals.
- More on norms.
- A proof of the Heine-Borel Theorem. (a distillation of various proofs)
- More details on sequential continuity.
- History of Heine-Borel Theorem
- Topologist's sine curve
- A proof of Lebesgue's theorem on Riemann integration.
- A discussion of norms.
- The class email address is math334a_au16@uw.edu.
- Hyperbolic functions.
- The Cauchy-Binet formula and areas of submanifolds.
- Areas of hypersurfaces and parallelotopes.
- Federer's exposition of Geometric Measure Theory. His very dense book is 676 pages long.
- Volume of the n-ball.
- Fubini's theorem
- A set is Jordan-measurable if and only if the outer area of its boundary is 0.
- A geometric proof that (sin x)/x -> 1 as x->0.
- Differentiability
- Thomae's function.
- Best book ever written on inequalities:
*Inequalities*by Hardy, Littlewood, and Polya. - Jensen's Integral Inequality.
- Hadamard's Inequality for determinants of matrices and its application to measures.
- Jensen's inequality.
- The Arithmetic mean - geometric mean inequality and consequences.
- Derivation of least squares.
- Scanned first exercises from Folland)
- Cauchy's inequality
- The book
*Principles of Mathematical Analysis*by Walter Rudin has a construction of the real numbers (as Dedekind cuts) from the rational numbers. It is on reserve in the math library. The reals can also be constructed from the rationals using Cauchy sequences by a general process known as*completion*that applies to any metric space. - Basic Real Analysis by Tony Knapp is a good reference.
- A quote from Felix Klein (famous German mathematician)
*Everyone knows what a curve is, until he has studied enough mathematics to become confused through the countless number of possible exceptions*. -
*When I see a bird that walks like a duck and swims like a duck and quacks like a duck, I call that bird a duck.*-- Poet James Whitcomb Riley. - A quote from Henri Poincare
*Mathematics is the art of giving the same name to different things. [As opposed to the quotation: Poetry is the art of giving different names to the same thing].* - Some printings of Folland have an error on problem 6b,
page 125. It should read grad F
_{3}(a)=0. (There should be a subscript 3 on F.) - COCALC website.
- For those of you who have either of the first two printings of the text the old errata link is appropriate.
- The On-Line Encyclopedia of Integer Sequences is a great resource.
- Mathworld link.
- History of Mathematics Archive
- Errata for Folland's text. It is updated regularly. You should send email to folland@math.washington.edu if you spot any errors not already listed
- In problem number 7, section 1.3, consider f(x) to be defined only for x>0. Also assume the integers p and q are positive.
- Syllabus