Math 335, Accelerated (Honors) Advanced Calculus, Winter, 2014

This is the Math 335 homepage. Consult it from time to time to find useful information for the course. I will include links to the syllabus and other course information.

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The following are links to current course information.

(3/11/14) C36 is reserved from 10 to 1 Saturday and Sunday.
1. (3/10/14)Sample problems for the final. Don't be intimidated. I hope you find the problems interesting.
2. (2/18/14) C-36 is reserved Saturday, February 22, and Sunday, February 23, from 10:30am-1:30pm for midterm review. John will be there on Sunday.
3. (2/17/14) The Baire category theorem and related ideas. This document will resemble a blog and will evolve over time. The Baire category theorem has an elementary proof but it has many sophisticated consequenses.
4. (2/16/14) Sample problems for the second midterm.
5. (2/12/14) The best book on infinite series is Theory and Application of Infinite Series by Konrad Knopp.
6. (2/10/14) G.H. Hardy's book Orders of Infinity might answer some of your questions about comparitive growth of terms in a series.
7. (1/29/14) Rearranging alternating harmonic series
8. (1/29/14) A Primer of Real Functions by Ralph Boas is one of my favorite books on introductory analysis. I read it as an undergrad.
9. (1/28/14) Riemann's rearrangement theorem
10. (1/28/14) Review sessions will be Saturday and Sunday in C36 from 10:00 to 1:00. John will be there on Sunday.
11. (1/25/14) Sample problems for the first midterm.
12. (1/21/14) I'd like to recommend a book that you can download for free: Elementary Real Analysis by Thomson, Bruckner, and Bruckner. You might like to take a look at the other books on their website Classical Real Anallysis.
13. (1/15/14) John's office hours will be Wednesday 2:30-3:30pm and Thursday 2-3pm.
14. (12/23/13) Suppose \( \sum c_n e^{inx} \) converges for all x to a function f that is Riemann integrable (or just Lebesgue integrable). Then the \(c_n\) are the Fourier coefficients of f (and hence the series is a Fourier series). This is a theorem of du Bois Reymond and de la Valee Poussin.
15. (12/23/13) The probability integral.
16. (12/23/13) Artin, Emil. The Gamma Function. New York, NY: Holt, Rinehart and Winston, 1964.
17. (12/23/13) Arzela's theorem on dominated convergence.
18. (12/23/13) Some stuff on series.
19. (12/30/13) A hint for problem 14 in section 6.4. Prove that for small \(x\) \[ \frac{1}{x} \log(1+x) = 1 - \frac{x}{2} + \frac{x^2}{3} + \dots, \] and hence that \[ (1+x)^{\frac{1}{x}} = e(1-\frac{x}{2} +\frac{7}{12}x^2 +\dots). \] Hence prove that \[ \frac{e-(1+\frac{1}{n})^n}{1/n} \to \frac{e}{2} \text{ as } n\to \infty. \]
20. (12/23/13 )page 1 page 2, and page 3 of my proof that \[ u(x) = \int \frac{\rho (x+y)}{|y|}dy\] solves \[\nabla ^2 u(x) = - 4 \pi \rho(x) \].
21. (12/30/12) Bump functions
22. (12/23/13) Please volunteer to help me with Mathday. There will be 1200 high school students on campus and I will need at least 75 volunteers to help escort then around and do other routine duties that require no mathematical knowledge. Here is a link to my mathday website. Mathday is Monday, March 24, 2014 -- the monday of Spring Break.
23. (12/23/13) Kernels, a discussion of solving constant coefficient odes with kernels.
24. (12/23/13) Closed and exact vector fields
25. (12/23/13) Proof of the Riemann-Lebesgue Lemma.
26. (12/23/13) Abel's theorem on Fourier series.
27. (12/23/13) Uniform version of Abel's test
28. (12/23/13) A summary of facts about power series.
29. (12/23/13) A short note on compactness.
30. (12/23/13) A note on double series.
31. (12/23/13) A note on Abel's test on series.
32. (12/23/13) Dirichlet's test
33. (12/23/13) A general point-wise convergence theorem.
34. (12/23/13) How Newton made his famous discoveries: By always thinking about them. I keep the subject constantly before me and wait til the first dawnings open little by little into full light.
35. (12/23/13) Binomial series.
36. (12/23/13) A sentence from a letter by C. G. J. Jacobi to A. von Humboldt, If Gauss says he has proved something, it seems very probable to me; if Cauchy says so, it is about as likely as not; if Dirichlet says so, it is certain.
37. (12/23/13) Infinite sums, some notes on summing possible infinite sets of numbers.
38. (12/23/13) A simple discussion of the fundamental solution of a constant coefficient linear differential equation.
39. (12/23/13) A primer on differential equations.
40. (12/23/13) A direct, simple, proof of a convergence theorem for improper integrals.
41. (12/23/13) A simple, quick, introduction to differential forms is Differential Forms by Harley Flanders which is available as a Dover reprint.
42. (12/23/13) Change of variables formula for spherical coordinates.
43. (12/23/13) Spherical Coordinates
44. (12/23/13) Here's a proof of the Cauchy-Binet formula, which has a nice application to give a formula for the measure of a parameterized manifold in Rⁿ.
45. (12/23/13) Smith's Prize exams. Look at 1854, #8.
46. (12/23/13) A proof of the Poincare Lemma.
47. (12/23/13) The Marquis and the Land Agent by G. N. Watson, The Mathematical Gazette, Vol. 17, No. 222 (Feb., 1933), pp. 5-17
48. (12/23/13) I will not cover Raabe's test and I will not ask you to work any problems using it.
49. (12/23/13) Starter books on manifolds and Stokes's theorem: Loomis and Sternberg, Advanced Calculus; Hubbard and Hubbard, Vector Calculus, Linear Algebra, and Differential Forms; Flanders, Differential Forms.
50. (12/23/13) There is an error in the answer to problem 2b in section 5.8. The answer should be (xz²/2, -xyz-z²/2-x²/2, 0)+grad(f)
51. (12/23/13) For problem number 3 in section 5.8, assume that Laplacian(f)=div(H) has a solution. You don't need to justify this.
52. (12/23/13) The 1854 Smith Prize Exam at Cambridge University that Stokes wrote can be found in the Michigan online library. The Smith Exams are in the last volume and this exam is on page 320. Apparently William Thomson (Lord Kelvin) stated the result to Stokes in a letter in 1850. James Clerk Maxwell won the Smith Prize in 1854 and Gabriel Stokes himself won it in 1841 and Thomson in 1845. Other winners are Arthur Cayley (1842), G.H. Hardy (1901), Arthur Eddington (1907), Alan Turing (1936). A history of the prize.
53. (12/23/13) Make sure you check Jerry Folland's website for misprints.
54. (12/23/13) Syllabus(pdf)