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- ...on-campus students. You can do whatever you want here.--[[User:Bell|Steve Bell]] 12:15, 31 August 2010 (UTC)1 KB (177 words) - 16:31, 16 September 2010
- Answer from Bell: Answer from Bell:4 KB (756 words) - 04:25, 8 September 2010
- Answer from Bell: Answer from Bell:6 KB (1,002 words) - 09:01, 15 September 2010
- Reply from Bell-- Think Words from Bell: I like what I'm seeing here! This is what the rhea is for.9 KB (1,580 words) - 13:08, 22 September 2010
- ...to use k^2 to represent a strictly positive constant.)--[[User:Bell|Steve Bell]] 12:22, 27 September 2010 (UTC) ...so I think going with the spring constant assumption should be fine (Prof. Bell will want to confirm).8 KB (1,396 words) - 10:38, 28 September 2010
- [http://www.math.purdue.edu/~bell/MA527/reviewsolns.pdf SOLUTIONS] Reply from Bell: A matrix doesn't have a dimension. But it4 KB (707 words) - 09:17, 29 September 2010
- [[2010 MA 527 Bell|Back to the MA 527 start page]]2 KB (384 words) - 09:12, 11 November 2010
- From Bell: Here is a little [http://www.math.purdue.edu/~bell/MA527/jing/periodic.swf Flash video hint]8 KB (1,384 words) - 17:16, 13 October 2010
- Answer from Bell: You'll need to use mathematical induction for this problem. Start with n [[2010 MA 527 Bell|Back to the MA 527 start page]]2 KB (411 words) - 15:21, 19 October 2010
- [[LegendreMA527Fall2010 |Legendre hints from Bell]] Message from Bell: When you solve that ODE as a first order linear ODE in the x variable, yo5 KB (960 words) - 11:00, 27 October 2010
- == Hints from Bell about Legendre Polynomials == [[2010 MA 527 Bell|Back to the MA 527 start page]]2 KB (404 words) - 19:28, 26 October 2010
- ...'t sketch it by hand. That would be almost impossible.--[[User:Bell|Steve Bell]] 18:32, 2 November 2010 (UTC) [[2010 MA 527 Bell|Back to the MA 527 start page]]2 KB (402 words) - 18:48, 2 November 2010
- [http://www.math.purdue.edu/~bell/MA527/Lectures/lec11-03.pdf Bell's Lecture on Lesson 30] Answer from Bell: The pi/2 value at zero is there because a Fourier Integral would converge8 KB (1,441 words) - 15:52, 10 November 2010
- 517: 5. See page 2 of Bell's 11/10/2010 lecture at [http://www.math.purdue.edu/~bell/MA527/Lectures/lec11-10.pdf Lesson 33]1 KB (207 words) - 12:06, 16 November 2010
- = Rhea Section for MA 530 Professor Bell, Spring 2011 = Bell's [http://www.math.purdue.edu/~bell/MA530 MA 530 Home Page]1 KB (167 words) - 19:15, 4 April 2011
- [http://www.math.purdue.edu/~bell/MA527/prac2.pdf Practice Problems] [http://www.math.purdue.edu/~bell/MA527/prac2solns.pdf Solutions]340 B (53 words) - 12:08, 16 November 2010
- Hint from Bell: That response is right on. First you need to find the ...omething when evaluating the X terms, because having lambda = n*pi/a as in Bell's example seems to satisfy the conditions just fine to me. Why would we nee4 KB (773 words) - 17:23, 8 December 2010
- [[2010 MA 527 Bell|Back to the MA 527 start page]]149 B (20 words) - 16:41, 30 November 2010
- How come when Prof. Bell worked on the case where lambda > 0 in class, he got the answer of exp(beta Answer from Bell: The linear span of exp(beta x) and exp(-beta x) is the same as the linear6 KB (1,054 words) - 09:24, 1 December 2010
- Can anyone fill in the blanks on the last problem (23) Professor Bell In the new solutions set, Professor Bell states that the key to this problem is knowing that the Fourier Cosine Tran7 KB (1,359 words) - 02:59, 14 December 2010
- Feel free to toss around ideas here.--[[User:Bell|Steve Bell]] ...sqrt{n}\left(\frac{n}{e}\right)^n} =\sqrt{2\pi}.</math>--[[User:Bell|Steve Bell]] 10:28, 19 January 2011 (UTC)1 KB (219 words) - 11:25, 19 January 2011
- Here is an answer from Steve Bell, the instructor of MA 530, Complex Analysis for first year grad students in --[[User:Bell|Steve Bell]] 14:02, 21 January 2011 (UTC)2 KB (342 words) - 07:35, 21 March 2013
- [[2011 Spring MA 530 Bell|Back to the MA 530 Rhea start page]]140 B (19 words) - 07:44, 21 January 2011
- [[2011 Spring MA 530 Bell|Back to the MA 530 Rhea start page]]140 B (19 words) - 08:13, 28 January 2011
- [[Intro_Prof_Mark_Bell|Prof. Mark Bell]]1 KB (213 words) - 06:32, 29 January 2013
- [[2011 Spring MA 530 Bell|Back to the MA 530 Rhea start page]]1 KB (267 words) - 11:21, 11 February 2011
- I still cannot help quoting the Baire category theorem since Prof. Bell said it's OK. [[2011 Spring MA 530 Bell|Back to the MA 530 Rhea start page]]586 B (85 words) - 18:05, 22 February 2011
- [[2011 Spring MA 530 Bell|Back to the MA 530 Rhea start page]]158 B (22 words) - 08:21, 24 February 2011
- =Rhea Section for MA 181 Professor Bell, Fall 2011=481 B (67 words) - 08:43, 28 September 2011
- [[2011_Fall_MA_181_Bell|Back to MA 181, Prof. Bell]]815 B (129 words) - 04:17, 6 September 2011
- =Meet [[ECE]] Professor Mark Bell= Prof. Mark Bell434 B (64 words) - 08:58, 9 December 2011
- to Steve Bell. [http://www.math.purdue.edu/~bell/gradlife Back to the gradlife page]402 B (72 words) - 08:24, 18 November 2011
- =Rhea Section for MA 425 Professor Bell, Fall 2012= [http://www.math.purdue.edu/~bell/MA425 The MA 425 Course Home Page]753 B (92 words) - 08:06, 27 September 2012
- [http://www.math.purdue.edu/~bell/MA425/prac1a.pdf| Link to the practice Problems]4 KB (652 words) - 08:02, 2 October 2012
- ...urier_analysis_in_Music| Fourier Analysis in Music]] by [[user:mbell|Maria Bell]]2 KB (287 words) - 13:01, 12 January 2018
- by: [[user:mbell| Maria Bell]], proud Member of [[Math_squad | the Math Squad]].4 KB (559 words) - 12:13, 26 September 2017
- by: [[user:mbell| Maria Bell]], proud Member of [[Math_squad | the Math Squad]].5 KB (883 words) - 13:06, 25 November 2013
- =Rhea Section for [[MA527|MA 527]] Professor Bell, Fall 2013= Bell's [http://www.math.purdue.edu/~bell/MA527 MA 527 Home Page]1 KB (213 words) - 09:42, 21 November 2013
- ...l free to create your own workspace for your own team. --[[User:Bell|Steve Bell]] ...tildes in a row, and the Rhea puts my name in for me. - [[User:Bell|Steve Bell]]5 KB (863 words) - 17:08, 27 August 2013
- ...nts who do the homework seriously get the best grades. - [[User:Bell|Steve Bell]] ^ Thank you for the tip Professor Bell1 KB (241 words) - 17:15, 23 August 2013
- [[2013 Fall MA 527 Bell|'''MA527, Fall 2013''']] ...on the Rhea on Tuesday with help from Eun Young Park. - [[User:Bell|Steve Bell]]9 KB (1,603 words) - 06:11, 8 September 2013
- [[2013 Fall MA 527 Bell|MA527 Fall 2013]] Answer from [[User:Bell|Steve Bell]] :17 KB (2,975 words) - 12:36, 11 September 2013
- [[2013 Fall MA 527 Bell|MA527 Fall 2013]] [[2013 Fall MA 527 Bell|Subrina: Regarding question 18 Section 4.3]]11 KB (1,916 words) - 14:05, 12 December 2013
- [[2013 Fall MA 527 Bell|MA527 Fall 2013]] Answer from [[User:Bell|Steve Bell]] :6 KB (1,017 words) - 06:48, 25 September 2013
- [[2013 Fall MA 527 Bell|MA527 Fall 2013]] Answer from [[User:Bell|Steve Bell]]:3 KB (554 words) - 18:25, 26 September 2013
- Remark from [[User:Bell|Steve Bell]]: Feel free to use a table of integrals for any tricky integrals. (For exa Remark from [[User:Bell|Steve Bell]]: Yes, that's a typo. It should read, "Find f(t) if11 KB (2,033 words) - 14:02, 12 December 2013
- Remark from [[User:Bell|Steve Bell]]: Remark from [[User:Bell|Steve Bell]]:4 KB (757 words) - 08:25, 16 October 2013
- Suggestion from [[User:Bell|Steve Bell]]: Christine, you shouldn't be getting complex numbers there. Notice that t ...the Rhea. For problem 12, I solved the partial fractions the way Dr. Bell suggested: A=6/5, B=4, C=-6/5, D=1. y(t) = 3/5 cos(t) + 2 sin(t7 KB (1,302 words) - 04:58, 23 October 2013
- ...and -v^2 for negative eigenvalues as seen in example 1 of 11.5 and in Dr. Bell's lecture example? Remark from [[User:Bell|Steve Bell]]: Did you get8 KB (1,388 words) - 14:51, 29 October 2013
- From [[User:Bell|Steve Bell]]: Yes, go ahead and use that table for problem 2 on page 522. Demonstratin From [[User:Bell|Steve Bell]]: For p. 509, problem 5, notice that in my lecture, I gave you the6 KB (1,130 words) - 18:15, 5 November 2013
