Math 552: Modern Algebra II - Spring 2012 -----------------------------------------   * * * * * GO TO: - [**Important Notes**](#in) (Last updated: 01/09 - 12:00pm) - [**Homework**](#hw) (Last updated: 04/27 - 7:30pm) - [Latest Homework Assigned](#lhw) - [Instructor Contact and General Info](#if) (Textbook, Prerequisites, Class Time, Exam Dates, Grade Formula) - [Course Information](#ci) - [Additional Bibliography](#ab) - [Problems Likely To Be Assigned](#pltba) - [Legal Issues](#li) - [Important dates](#id) - [Links](#links) - [Handouts](#ho) - [On-line Feedback Form](http://www.math.utk.edu/~finotti/php/feedback.html) * * * * * Important Notes --------------- - **(01/08 - 6:00pm)** Please, check this section often. I will put announcements and important info here. - **(01/08 - 6:00pm)** Please, hit the \`\`Refresh'' or \`\`Reload'' button on your web browser every time you visit this page, so that you can see the most recent updates.   Back to the [TOP](#top). * * * * * ### Instructor Contact and General Information   **Instructor:** Luís Finotti **Office:** Ayres Hall 243 **Phone:** 974-1321 (please do not ask me to call back -- leave your e-mail) **e-mail:** **Office Hours:** MW 9am-10am or by appointment (*subject to change!!*)   **Textbook:** D. Dummit and R. Foote, [Abstract Algebra](http://www.wiley.com/WileyCDA/WileyTitle/productCd-0471433349.html), 3rd edition, 2003, Wiley. ([ERRATA!](http://www.emba.uvm.edu/~foote/errata_3rd_edition.pdf)) **Prerequisite:** Undergraduate Abstract Algebra and Math 551. **Class:** MWF 10:10-11:00 at Ayres Hall 113. (Section 1.) **Exams:** *Midterm:* 03/05 (Mon). [Final:](http://registrar.tennessee.edu/academic_calendar/Spring_12_Exam.pdf) 05/02 (Wed) from 8am to 10am, in our regular classroom. **Grade:** *Roughly*: 30% for HW + 30% for the Midterm + 40% for the Final. **Note the weight of the HWs!** (Since this is a graduate course, there will be more leeway on these weights.)   Back to the [TOP](#top). * * * * * ### Course Information: This is the second course of the graduate sequence in *Modern Algebra*. We will cover topics in *Modules* and *Field/Galois Theory* this semester. The amount to be covered is again *very* large, and thus the pace of the class might be a bit fast. **I will assume you still remember Groups and Rings, and have some familiarity with Vector Spaces and Fields.** For the latter two, I will only assume that you know basic topics that anyone should have seen in an undergraduate algebra course, or mentioned last semester. I might quickly remind you of some of these basic facts, but I might skip some altogether. **Please, slow me down if I'm going too fast.** As with the last semester, I'd like to propose *evening Midterm* (at a time convenient to all) and *Extended Class Time* (start 5 minutes early and finish 5 minutes late). Both of these will be, again, left to the students choice. #### Course Structure We will likely cover parts three and four of the textbook, and revisit a few sections of part five that deals with modules (e.g., localization). Some sections might be left out depending on time (e.g., maybe 11.5 or 13.3), but we will certainly try to cover all topics required for the prelim (as time permits). #### Homeworks Homeworks will be assigned after every class and will be posted at the section [Homework](#hw) of this page. No paper copy of the HW assignments will be distributed in class. **It is your responsibility to check this page often!**. Besides HW assignments, other important information will be posted here. (Check the section [Important Notes](#in) often!) The HWs will be collected on Wednesdays. Each HW will have problems from the previous week (Monday, Wednesday and Friday lectures). The problems to be turned in, as well as due dates, will be clearly posted on the course page. Note that not all of the problems turned in will be graded, but you won't know which until you get them back. No late HWs will be accepted, except in extraordinary circumstances which are properly documented. **It is your responsibility to keep all your graded HWs and Midterms!** It is very important to have them in case there is any problem with your grade. Unfortunately, I will not post solutions this semester. If you want to see the solution to a problem, please come to office hours. Also, you should try to come to my office hours if you are having difficulties with the course. I will do my best to help you. Please try to come during my *scheduled* office hours, but feel free to make an appointment if that would be impossible. #### E-Mails **You will have to check your e-mail at least once a week, preferably daily.** I will use your e-mail (same I used last semester) to make announcements. If that is not your preferred address, write me an e-mail letting me know ASAP. I will assume that any message that I sent via e-mail will be read in a week or less, and it will be considered an *official* communication. #### Feedback We still have the [On-line Feedback Form](http://www.math.utk.edu/~finotti/php/feedback.html) where you can anonymously send me your comments and suggestions. I will consider your comments and try to do whatever I can to resolve possible problems before it is too late. So, please, feel free to use it whenever you have any constructive comment or suggestion. (In fact, I would greatly appreciate it.) If you don't want you comments to be anonymous, just send me an e-mail or come by my office and we can discuss the problem.   Back to the [TOP](#top). * * * * * ### Additional Bibliography Here are some other books you might find helpful. (Same as last semester.) - S. Lang. [\`\`Algebra''](http://www.springer.com/sgw/cda/frontpage/0,11855,4-10042-22-2282281-0,00.html?changeHeader=true), 3rd Edition. Springer, 2005. -- Probably the best *reference* algebra book there is. - I. Isaacs, [\`\`Algebra: A Graduate Course''](http://www.ams.org/bookstore-getitem/item=gsm-100), 1st Ed., 1994. AMS (Originally published by Brooks Cole/Cengage Learning). -- Particularly good in group theory and non-commutative algebra. - B.L. van der Waerden, [\`\`Algebra I, II''](http://www.springer.com/west/home/generic/search/results?SGWID=4-40109-22-13888215-0), 2nd Ed., 2003, Springer. -- A classic. - N. Jacobson, [\`\`Basic Algebra I and II''](http://www.amazon.com/gp/product/0716714809/qid=1143412018/sr=1-1/ref=sr_1_1/104-8288760-0800748?s=books&v=glance&n=283155), 2nd Ed., 1985. W H Freeman & Co. (Out of print.) -- Another standard book. - T. Hungerford, [\`\`Algebra''](http://www.springer.com/west/home/generic/search/results?SGWID=4-40109-22-1267779-0), 1st Ed., 1974, Springer. -- Another standard book. Here are some which are more on the level of *undergraduate* algebra: - J. Fraleigh [\`\`A First Course in Abstract Algebra''](http://www.aw-bc.com/catalog/academic/product/0,1144,0201763907,00.html), 7th Ed., 2002. Addison Wesley. - J. Gallian, [\`\`Contemporary Abstract Algebra''](http://www.cengage.com/search/productOverview.do?Ntt=gallian||9780547165097&Ntk=all||P_Isbn13&N=+16), 7th Ed., 2009. Brooks Cole. - M. Artin. [\`\`Algebra''](http://www.pearsonhighered.com/educator/product/Algebra/9780132413770.page), 2nd Ed.,2011. Pearson. - I. Herstein, [\`\`Topics in Algebra''](http://www.wiley.com/WileyCDA/WileyTitle/productCd-0471010901.html), 2nd Ed., 1975. Wiley. The first two books are considered \`\`easier'' books. The Artin's book is of a bit higher level (and has a slightly different focus). The last one is a \`\`standard'' text for a first course in abstract algebra, but have a higher level of difficulty than the previous two. It's been used for the honors section of the undergraduate algebra course here at UT, and it might be even on the level of a graduate course.   Back to the [TOP](#top). * * * * * ### Legal Issues #### Conduct All students should be familiar and maintain their *Academic Integrity*: from [Hilltopics 2011/2012](http://dos.utk.edu/files/HTopics2011.pdf), pg. 41: ** **Academic Integrity** Study, preparation and presentation should involve at all times the student's own work, unless it has been clearly specified that work is to be a team effort. Academic hon- esty requires that the student present his or her own work in all academic projects, including tests, papers, homework, and class presentation. When incorporating the work of other scholars and writers into a project, the student must accurately cite the source of that work. (See Academic Standards of Conduct, pg. 12.) All students should follow the *Honor Statement*: from [Hilltopics 2011/2012](http://dos.utk.edu/files/HTopics2011.pdf), pg. 12: ** **Honor Statement** \`\`An essential feature of The University of Tennessee is a commitment to maintaining an atmosphere of intellectual integrity and academic honesty. As a student of the University, I pledge that I will neither knowingly give nor receive any inappropriate assistance in academic work, thus affirming my own personal commitment to honor and integrity.'' You should also be familiar with the [Classroom Behavior Expectations](http://www.math.utk.edu/Courses/Expectations.pdf). #### Disabilities Students with disabilities that need special accommodations should contact the [Office of Disability Services](http://ods.utk.edu/) and bring me the appropriate letter/forms. #### Sexual Harassment and Discrimination For [Sexual Harassment](http://oed.admin.utk.edu/docs/complaint_sex_harass.pdf) and [Discrimination](http://oed.admin.utk.edu/docs/DiscrimCompProc.pdf) information, please visit the [Office of Equity and Diversity](http://oed.admin.utk.edu/).   Back to the [TOP](#top). * * * * * ### Important dates:   **Wednesday, January 11** - Classes begin. **Monday, January 16** - Martin Luther King, Jr. Day. (No class.) **Friday, January 20** - Last day to add, change grade options, or drop a full semester course without a "W". **Wednesday, March 5** - Midterm. **Monday-Friday, March 19-23** - Spring Break. (No class.) **Tuesday, April 3** - Last day to drop a full term course with a "W". **Friday, April 6** - Spring Recess. (No class.) **Friday, April 27** - Last Class Day. **Wednesday, May 02** - Final.   [More dates.](http://registrar.tennessee.edu/academic_calendar/)   Back to the [TOP](#top). * * * * * ### Links   - [UT Knoxville Home](http://www.utk.edu) - [UTK's Math Department.](http://www.math.utk.edu) - My previous 551/552 course from 2007/2008: [M551 (Fall 2007)](../../f07/m551/M551.html) and [M552 (Spring 2008)](../../s08/m552/M552.html) course pages. - My undergraduate algebra course pages from 2006/2007: [M455 (Fall 2006)](../../f06/M455.html) and [M456 (Spring 2007)](../../s07/M456.html) course pages. - Our [Math 551 Course Page](http:../../f11/m551/M551.html). - [Blackboard](http://online.utk.edu/) -- Check your grades for this course. - [On-line Feedback Form](http://www.math.utk.edu/~finotti/php/feedback.html) - here you can give me some feedback for the course. It's confidential and might help fix problems before the quarter is over. - [Services for Current Students](http://www.utk.edu/currentstudents/) and [MyUTK](http://myutk.utk.edu/) (registration, view your grades, etc.). - [Office of the Registrar](http://registrar.tennessee.edu/) - [Important Dates for Fall 2011](http://registrar.tennessee.edu/academic_calendar/201140_time-finan_cal.pdf) (add, drops, etc.) and [2011/2012 Academic Calendar](http://registrar.tennessee.edu/academic_calendar/AcadCal11-12.pdf). - [UT Code of Conduct](http://www.lib.utk.edu/instruction/plagiarism/honor.html), [Academic Integrity](http://www.lib.utk.edu/instruction/plagiarism/academic.html), and [Classroom Behavior Expectations](http://www.math.utk.edu/Courses/Expectations.pdf). - [Hilltopics 2011/2012](http://dos.utk.edu/files/HTopics2011.pdf) - [Office of Disability Services](http://ods.utk.edu/) - [Office of Equity and Diversity](http://oed.admin.utk.edu/) (includes sexual harassment and discrimination). - [Course Listings](https://my.tennessee.edu/portal/page?_pageid=44,43618&_dad=portal&_schema=PORTAL) (courses offered). - [Catalog (Current)](http://catalog.utk.edu/index.php?catoid=4) and [Course Descriptions](http://catalog.utk.edu/content.php?catoid=4&navoid=307#acalog_template_course_filter). - [My homepage](http://www.math.utk.edu/~finotti/)   Back to the [TOP](#top). * * * * * ### Handouts   - [ERRATA](http://www.emba.uvm.edu/~foote/errata_3rd_edition.pdf) for Dummit and Foote's book. (**Updated on 01/24.**) - Here are some [statements](statements.pdf) from Field/Galois Theory. I will *try* to update them as we progress. If you find mistakes, *please let me know ASAP*. - Here is the [midterm](midterm.pdf) and [solutions](midterm_sol.pdf). - Here is the [final](final.pdf) and [solutions](final_sol.pdf).   Back to the [TOP](#top). * * * * * ### Problems *Likely* To Be Assigned This list is subject to change without prior notice. The official assignments will be posted [below](#hw).   **Section 16.1:** 2, 3, 4. **Section 16.2:** 1, 3, 4. **Section 10.1:**. (Most of these are quite quick and easy. At least take a look at them.) 2, 3, 4, 5, 7, 8, 13, 15, 18, 19, 20, 21, 23. **Section 10.2:** 4, 6, 8, 9, 10, 11, 12, 13. **Section 10.3:** Look at all of them, and do a few. There are too many problems that show nice (and easy) properties of modules. 1, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 16, 17, 18, 22, 23, 24(a)-(e). **Section 10.4:** 3, 4, 5, 6, 7, 9 (use 8(c) without proving it), 10, 11, 15, 17, 18, 20, 24, 25. **Section 10.5:** 1, 3, 4, 6, 7, 8, 9, 10, 11, 12 13, 14(a)-(b). **Section 11.1:** 1, 4, 6, 9, 10, 11, 13 (use 12). **Section 11.2:** 8, 10, 17, 22, 23, 24, 27, 31, 38, 39. (I did not put computations in here, but you should be able to do them...). **Section 11.3:** 1, 3, 4. **Section 11.4:** 1, 2, 3, 6. **Section 12.1:** 2, 3, 4, 6, 8, 9, 15, 21, 22. (Exercises 16 to 19 are important to justify the algorithm for rational canonical form.) **Section 12.2:** 1, 2, 3, 4, 6, 7, 9, 10, 13, 17, 18, 19, 20, 21. (Exercises 22 to 25 are important to justify the algorithm for rational canonical form.) **Section 12.3:** 2, 10, 17, 19, 22, 25, 26, 29, 33. Also make sure you do a few computational ones. **Section 13.1:** 2, 4, 8. **Section 13.2:** 1, 4, 8, 13, 15, 17, 18, 19, 20, 22. **Section 13.4:** 1, 2, 3, 4. **Section 13.5:** 2, 3, 4, 5, 6, 8, 9, 10. **Section 14.9:** 1, 2, 3. **Section 14.3**: (You don't need Galois Theory here, but you can use it if you want.) 3, 4, 5 (this statement is not so good -- identity is an isomorphism -- so try to show that the roots of the second polynomial are in the splitting field of the first), 6, 7, 10, 11. **Section 14.1**: 1, 2, 3, 4, 5, 6, 7. **Section 14.2**: 1, 3, 4, 6 (look at the computations on pg. 557), 7, 8, 9, 11, 13, 14, 15, 16.. **Section 14.4**: 1, 2, 3, 4 (the hint suggests that *f* is separable; the statement is true in general, and so do it for the general case; the hint seems to go bad in this situation, so maybe you shouldn't try to follow it; finally, note that for the book, Galois implies *finite*, so assume that *K/F* is finite), 5(a)-(b), 6 (note that this is the hard way; it's easier to show explicitly that it is not simple), 7, 8 (I think it needs a *little* of flat modules). **Section 13.6**: 1, 2, 3, 5, 6. **Section 14.5**: 3, 5, 6, 7, 8, 9, 10, 11, 12. **Section 14.6**: 2(b), (c), 4, 5, 10, 18, 20, 28. **Section 14.7**: 3, 4, 5, 6, 7, 8, 12, 13.   Back to the [TOP](#top). * * * * * ### Homework   **HW1** - Due on **Wednesday 01/25** (note that it was postponed!): **Section 16.1:** **Turn in:** 4. **Do not turn in:** 2, 3. **Section 16.2:** **Turn in:** 4. **Do not turn in:** 1, 3. **Section 10.1:**. **Turn in:** 13. **Do not turn in:** (Most of these are quite quick and easy. At least take a look at them.) 2, 3, 4, 5, 7, 8, 15, 18, 19, 20, 21, 23.   **HW2** - Due on **Wednesday 02/01**: **Section 10.2:** **Turn in:** 13. **Do not turn in:** 4, 6, 8, 9, 10, 11, 12. **Section 10.3:** **Turn in:** 10, 24(c), (e) **Do not turn in:** Look at all of them, and do a few. There are too many problems that show nice (and easy) properties of modules. 1, 4, 5, 6, 7, 8, 9, 11, 13, 14, 16, 17, 18, 22, 23, 24(a), (b), (d).   **HW3** - Due on **Wednesday 02/15** (I've postponed this assignment as I haven't finished the chapter and I can't check at this point which problems you can already do, but I do urge you to start looking at the problems likely to be assigned and do as many as you can which seem feasible at this point): **Section 10.4:** **Turn in**: 4, 5, 7, 20. **Do not turn in:** 3, 6, 9 (use 8(c) without proving it), 10, 11, 15, 17, 18, 24, 25.   **HW4** - Due on **Wednesday 02/29** (no HW due on 02/22): **Section 10.5:** **Turn in**: 6, 8, 14(a). **Do not turn in:** 1, 3, 4, 7, 9, 10, 11, 12, 13, 14(b).   **HW5** - Due on **Wednesday 03/07**: **Section 12.1:** **Turn in:** 6, 9, 15. **Do not turn in:** 2, 3, 4, 8, 21, 22.   **HW6** - Due on **Wednesday 03/14** (no problem to be turned in due to the exam): **Section 13.1:** **Do not turn in:** 2, 4, 8. **Section 13.2:** **Do not turn in:** 1, 4, 8, 13, 15, 17, 18, 19, 20, 22.   **HW7** - Due on **Wednesday 03/28**: **Section 13.1:** **Turn in:** 8. **Section 13.2:** **Turn in:** 15, 19(b).   **HW8** - Due on **Wednesday 04/04**: **Section 13.4:** **Do not turn in:** 1, 2. **Turn in:** 3, 4.   **HW9** - Due on **Wednesday 04/18**: **Section 13.5:** **Do not turn in:** 2, 3, 4, 6, 8, 9, 10. **Turn in:** 5. **Section 14.9:** **Do not turn in:** 1, 3. **Turn in:** 2. **Section 14.3**: (You don't need Galois Theory here, but you can use it if you want.) **Do not turn in:** 3, 4, 5 (this statement is not so good -- identity is an isomorphism -- so try to show that the roots of the second polynomial are in the splitting field of the first), 7, 10. **Turn in**: 6, 11.   **HW10** - **Not to be turned in!** (just practice for the final): **Section 14.1**: 1, 2, 3, 4, 5, 6, 7. **Section 14.2**: 1, 3, 4, 6 (look at the computations on pg. 557), 7, 8, 9, 11, 13, 14, 15, 16.. **Section 14.4**: 1, 2, 3, 4 (the hint suggests that *f* is separable; the statement is true in general, and so do it for the general case; the hint seems to go bad in this situation, so maybe you shouldn't try to follow it; finally, note that for the book, Galois implies *finite*, so assume that *K/F* is finite), 5(a)-(b), 6 (note that this is the hard way; it's easier to show explicitly that it is not simple), 7, 8 (I think it needs a *little* of flat modules). **Section 13.6**: 1, 2, 3, 5, 6. **Section 14.5**: 3, 5, 6, 7, 8, 9, 10, 11, 12. **Section 14.6**: 2(b), (c), 4, 5, 10, 18, 20, 28. **And that's all (for the final).** For the prelim, do also 14.7 from the list of likely to be assigned.   **PLEASE, HIT \`\`REFRESH'' (OR \`\`RELOAD'') IN YOUR BROWSER WHEN VISITING THIS PAGE!!!!!!!** I usually get messages asking for the update in the HW when it has already been updated. Since I change this page often, some times the browser don't see the changes. But, if you hit refresh and there is still problems missing, feel free to write me.   If it is already **Friday** afternoon and there still is a \`\`More to come'' after the HW assignment due on the coming Wednesday, write me an e-mail at , and I'll update it and let you know.   Back to the [TOP](#top). * * * * *