Autumn 2010
Math 151H: Honors Calculus
Sections 201-2

Old tests from my 151H classes: 2006 test 1   test 2   test 3   final exam   2008 test 1   test 2   test 3   final exam  
Office hours: Monday 13 December and Tuesday 14 December 9--11 AM
Announcements, including homeworks     implicit plots.
Instructor: Frank Sottile       Weekly schedule
Office: Milner 303
Telephone: 845.4169
email: sottile@tamu.edu
      Text-only email with course + section number in Subject line, please.
WWW: Sottile's home page
 Office Hours : Monday 9:30--10:30
Tuesday 10:00--11:00
Thursday 10:30--11:30
And by appointment
Textbook: Calculus, early vectors, by J. Stewart.
MATLAB: An Introduction with Applications, 3rd Edition, by Gilat.
Lectures:   Tu, Th: 12:45 -- 14:00 Held 113.
Graduate Assistant:   Rohun Kshirsagar
Labs:   201 M 13:50-14:40 BLOC 122
  202 M 11:30-12:20 BLOC 122
  MATLAB Schedule
  CalcLab Help. Blocker 128, overflow to Blocker 126:
    Monday--Thursday 7-10 PM
    Sundays 1-10PM
Recitations:   201 W 13:50-14:40 Bloc 122
  202 W 11:30-12:20 Held 119
Learning Objectives: This course is to provide students with quantitative and problem-solving skills of 2-dimensional vectors and differential calculus, as well as an introduction to rigorous thought. Besides learning the methods of the calculus, this course will introduce students to the Calculus as a mathematical subject, with an emphasis on basic definitions and theorems, and the deduction of formulas from these foundations. At the conclusion of the course, students should be able to:
Understand and apply the definition of limit.
Understand basic definitions and Theorems in the Calculus, as well as their proofs.
Know and use techniques of differentiation.
Apply techniques of differentiation to a variety of applications, including engineering applications.
Understand and apply vector operations in 2-dimensions, including dot product.
Understand the relationship between derivatives and integrals via the Fundamental Theorem of Calculus.
Use computer algebra systems, such as MATLAB, to solve non-routine problems.
More on course content: This is serious course for serious students. It will cover the same topics as the ordinary Math 151 (see their schedule), but at a distinctly higher level without review, and with an emphasis on rigor. These topics are vectors, functions, limits, derivatives, inverse functions, Mean Value Theorem, applications of derivatives, integrals, and the Fundamental Theorem of Calculus. Because of this, the primary source material for the course are my lectures; the book is supplementary, but well-worth reading, especially for its examples.

  There will also weekly MATLAB work. Octave is supposed to be an open-source MATLAB clone.

Special Note: You are the best of the best. I hope to make this course intellectually interesting and challenging. There is no predetermined grade distribution; your GPA will not be penalized for taking this course. Good performance will be rewarded with good grades. (Extra credit to the first student who explains properly to me what is wrong with the common use of the word `curve' with respect to grades.)
    Your goal in this course, as in every course that you ever take, should be a complete mastery of the material. Anything less is aspiring to mediocrity and doing yourself a disservice. There are several things that I will expect from you. You should read the relevant sections of the text before we meet (if possible). Come to class ready to ask questions about what you do not yet know. After class, re-read the text and your notes, and do some exercises to complete your mastery of the material. A guide, and only a guide, to exercises for this purpose may be found here. Finally, ask questions in class, lots of them.
Calculator: There will be no use of calculators on exams.
We'll save the machines for more serious work in the lab portion of the course.
Course webpage: (Sottile's homepage)/teaching/10.2/151H.html
Departmental page for Math 151
Some Pictures:


More Curves.
Grading
You will be expected to attend all class meetings; I do keep track of such matters, but allow a few absences before penalties begin. There will be two in-term exams (each worth 20% toward your final grade), a limits tests (5%), and the final exam will be worth 30%. The remaining 25% will be Homework, attendance and class participation, the MATLAB Labs, the Greek alphabet quiz, and class discussion about Flatland.
Exam Schedule
Limits quiz Thursday 30 September    Greek alphabet quiz first week in October.
First exam: Tuesday, 19 October.
Second exam:   Thursday, 18 November.
Final Exam: Wednesday 15 December, 8:00 - 10:00 AM.
Greek Alphabet.
Homework:
Yes, and on a regular basis.   suggested homework for ordinary 151.
Some particulars of the homework have yet to be determined.

Homework will be collected at least once a week and assigned daily, in class.

Late homeworks are not accepted. While it may not be possible to mark all problems assigned, you should hand in all the assigned problems as a random selection of the problems will be corrected, graded, and recorded for your homework score. The two lowest homework scores will be dropped before computing your grade.
Initial Assignment : Read this web page, and send me a text-only email that you have read and understood the course descriptions and policies.
Also, put the class and section number in the subject line.
Please also answer the following questions:
(1) Why are you taking this course?
(2) What do you hope to get out of this course?
(3) Is there anything else that you want to tell me about yourself (that may be relevant to the course)?

Absences: While I do take attendance, your first few absences will not count. If you have a valid reason (medical or family emergency) for missing an exam, then I will instead give more weight to the final exam, or, on rare occasions, give you an alternative exam before the scheduled exam. Missing an exam without a valid reason results in a score of zero for that exam.
COPYRIGHT POLICY: All printed materials disseminated in class or on the web are protected by Copyright laws. While personal use is permitted, sale of any of these materials is strictly prohibited.
University wide policies and statements:
Americans with Disabilities Act (ADA) Policy Statement

The following ADA Policy Statement (part of the Policy on Individual Disabling Conditions) was submitted to the University Curriculum Committee by the Department of Student Life. The policy statement was forwarded to the Faculty Senate for information.

The Americans with Disabilities Act (ADA) is a federal anti-discrimination statute that provides comprehensive civil rights protection for persons with disabilities. Among other things, this legislation requires that all students with disabilities be guaranteed a learning environment that provides for reasonable accommodation of their disabilities. If you believe you have a disability requiring an accommodation, please contact the Department of Student Life, Services for Students with Disabilities, in Room 126 of the Koldus Building or call 845-1637.

Academic Integrity Statement "An Aggie does not lie, cheat, or steal or tolerate those who do." For more, see the Honor Council Rules and Procedures.
Last modified: Fri Dec 10 09:34:41 CET 2010