Instructor: Dave Rusin (rusin@math.utexas.edu) Office hrs: I will be in my office (RLM 9.140) at these times for you: Mondays 2:30-4:30pm Tuesdays noon-2:00pm Wednesdays 9:30-10:45 am Fridays 9:30-10:45 am Text: Calculus (8th Edition, "Early Transcendentals" version) by James Stewart. You may also use the all-electronic version of that same book, or the "special UT edition" at the bookstore. I am teaching two sections of this class. It is likely, but not certain, that the two will be in sync. If you must miss class one day you are welcome to sit in the other class; but please note that the tests are not identical, and I adjust each class's exams to match what happened in that class's meetings. If you attend the "wrong" classes you could well find yourself at a loss on the exams! Your schedule is determined by the section you are assigned to: Sec 54005 meets MWF at noon in UTC 4.122 and TTh 8:30 a.m. in BUR 136 Sec 54010 meets MWF at noon in UTC 4.122 and TTh 3:30 p.m. in BUR 130 Sec 54015 meets MWF at 1 pm in GSB 2.126 and TTh 8:30 a.m. in BUR 224 Sec 54020 meets MWF at 1 pm in GSB 2.126 and TTh 5:00 p.m. in BUR 224 You will meet with me on MWF and with a Teaching Assistant (as yet unnamed) on TTh. He or she will also have office hours. I hope to have one or more Learning Assistants to help in class, too. Your final exam will be held: Sec 54005, 54010: Thursday, December 14, 2:00 p.m. -- 5:00 p.m. Sec 54015, 54020: Monday, December 18, 7:00 p.m. -- 10:00 p.m. There is no provision for taking the final exam earlier or later. You must take the exam with your appointed section. The exam may not be held in the regular classroom; I will announce the location when I know it. You can always confirm your own exam schedule at the Registrar's web site.

**UPDATE**I think I have finally gotten the access information onto Canvas to allow you to buy an electronic version
of the text. Here are the instructions I was given for you to follow to buy the book.

Course webpage: http://www.ma.utexas.edu/~rusin/408S/ It is unlikely that I will post any important material to Canvas; for any additional information I want to give you outside of class you should come to this webpage.

408S INTEGRAL CALCULUS FOR SCIENCE: Introduction to the theory of integral calculus of functions of one variable, and its applications to the natural sciences. Subjects may include integration and its application to area and volume, and transcendental functions, sequences, and series and their application to numerical methods.

May be counted toward the quantitative reasoning flag requirement.

The prerequisite is a grade of at least C- in Mathematics 408C, 408K, or 408N. Please note that if you had a C- in one of those courses, you thus have the weakest background of anyone in the class and so you should be working the hardest and getting the most help and feedback from me and the assistants.

Registration is restricted to students in the College of Natural Sciences. Only one of the following may be counted: Mathematics 403L, 408L (or 308L), 408S.

Every day (more or less) I will ask you to learn some material online BEFORE coming to class. This is presented in a "learning module" at the Quest site. There will be pages to read, short videos to watch, and some straightforward questions. Follow the instructions and make notes of your questions; you can bring these to me (or the T.A.) in class.

That way we can use our very limited time together to be more productive by getting you to do things rather than sit passively listening to me drone on and on. We will work individually or in groups, and some of you may present your work for the rest of the class to see.

There will then be some traditional homework for you to complete, also through Quest. You can and probably should work with your friends on these assignments.

Your semester grade will be based on a number of components. This structure is designed to encourage you to stay actively involved in the course all the way through the semester. Any changes to the schedules or policies will be announced multiple times in lecture and via email and on the course website shown above.

Learning modules: Quest will assign you a grade for these and at the end of the semester it will provide me your average score (0 to 100). I will not drop any learning module scores because I don't want you skipping these. This is your easiest route to improving your grade!

Homeworks: There will be questions for you to answer on Quest after each class. This will enable you to get constant feedback on how well you are understanding the material. Note that Quest will subtract points for wrong answers, so think carefully before you answer or you could end up with a negative score! (Why?)

I will drop the two lowest homework grades and average the rest to give you a "Homework Score" of up to 100 points for the semester.

Quizzes: There will be a quiz (almost) every week. As with the homeworks, this will be scaled to give you a semester "Quiz score" of up to 100 points. The Teaching Assistant will give further information about how the quizzes will be totalled.

Learning Module, Homework, and Quiz scores will be treated as letter grades using the following scale:

97-100 | A+ |

94-96 | A |

90-93 | A- |

87-89 | B+ |

84-86 | B |

80-83 | B- |

77-79 | C+ |

74-76 | C |

70-73 | C- |

67-69 | D+ |

64-66 | D |

60-63 | D- |

0-59 | F |

Exams: There will be 2 mid-term exams, to be held during the usual class period, and a comprehensive final exam. The exams will be a mix of multiple-choice and free-response questions; the ratio will change as the semester progresses. The midterms will be 8-12 questions long; the final is twice as long (and counts twice as much) but you have 3 hours for it.

I will use the scale above to convert your raw score to a letter grade, but because my exams tend to be hard, I will also use an alternative method and then whichever method gives you the better grade will be the one I record for you for that exam. Here's the alternative method: After I compute the mean and the standard deviation of the class grades, I will determine how many standard deviations above or below the mean your grade is. If your score is greater than the mean by less than one standard deviation, you will get a B (or B+ or B-, as appropriate); higher scores get A's, lower scores get C's, D's, and F's. For example, suppose the class average on the exam was 78.3 points and the standard deviation was 14.4 points. Then the conversion from raw scores to letter grades will be based on these brackets (of width 14.4/3 = 4.8 up and down from 78.3) :

SAMPLE! | |

103+ | A+ |

98-102 | A |

93-97 | A- |

88-92 | B+ |

84-87 | B |

79-83 | B- |

74-78 | C+ |

69-73 | C |

64-68 | C- |

60-63 | D+ |

55-59 | D |

50-54 | D- |

0-49 | F |

Note that in this example any student whose raw score was 87 or higher would get a higher letter grade based on the traditional 90-80-70-60 scale shown earlier, and thus for those students the traditional scale will be used.

Textbooks, notes, and electronic devices (including phones and calculators) are not permitted during exams.

I expect the dates of the midterms to be October 13 and November 20. The last day of class is Monday, Dec 11. Please mark these dates and the date of your final in your calendar now. If there is any change in these dates I will announce them several times in class and change this file.

Attendance: I will be at class every day and expect you to be, too. We will use the class time to work problems together and I *WILL* call you to come forward and explain things to the class. In particular: I'll notice if you're not there...

Your final semester grade is simply a weighted average of the components: learning module, homework, quiz, and midterm grades count equally (1/7 each) and the final counts double (2/7 of the total). I do the arithmetic as is done for high-school GPAs: A=4.0, B=3.0, etc; "+" and "-" are one-third of a letter grade up or down. An average of 3.83 rounds down to an A- (4-1/3) while 3.84 rounds up to an A (4.00), etc. Sadly, the university does not permit me to report scores of "A+" but internally I do track those terrific students whose semester average is 4.17 or above!

Note that in this way your weekly homework grades and so on are giving you approximations to your eventual semester grade. If you don't like the grades you are seeing, please see me (or the T.A.)

Classroom activity: Our meeting times together are very short so we must make the most of them. Come to class daily and ask questions. Please silence your cell phones. I will always assume that any talking I hear is about the course material so I may ask you to share your conversations with the class.

Make-ups:
It is in general not possible to make up missing learning modules or homework
assignments after the due date. If you believe you will have to miss
a graded event, please notify me *in advance*; I will try to arrange
for you to complete the work early.

Students with disabilities: The University of Texas at Austin provides upon request appropriate academic accommodations for qualified students with disabilities. For more information, contact the Office of the Dean of Students at 471-6259, 471-4641 TTY.

Religious holidays: If you are unable to participate in a required class activity (such as an exam) because it conflicts with your religious traditions, please notify me IN ADVANCE and I will make accommodations for you. Typically I will ask you to complete the required work before the religious observance begins.

Academic Integrity. Please read the message about Academic Integrity from the Dean of Students Office. I very much prefer to treat you as professionals whose honesty is beyond question; but if my trust is violated I will follow the procedures available to me to see that dishonesty is exposed and punished.

Campus safety: Please familiarize yourself with the Emergency Preparedness instructions provided by the university's Campus Safety and Security office. In the event of severe weather or a security threat, we will immediately suspend class and follow the instructions given. You may wish to sign up with the campus alert programs.

Counseling: Students often encounter non-academic difficulties during the semester, including stresses from family, health issues, and lifestyle choices. I am not trained to help you with these but do encourage you to take advantage of the Counselling and Mental Health Center, Student Services Bldg (SSB), 5th Floor, open M-F 8am-5pm. (512 471 3515, or www.cmhc.utexas.edu

Add dates: If you enroll within the first four class days of the semester, and have missed any graded material, I will adjust the weighting of your graded sections accordingly so that you are not penalized. No such accommodation is made for students who enroll on the 5th day or later. (Such students must enroll through the MPAA advising center in RLM, and ordinarily I do not admit students who ask to enroll then if they have missed any graded activities).

Drop dates: Sep 5 is the last day to drop without approval of the department chair; Sept 15 is the last day to drop the course for a possible refund; Nov 7 is the last day an undergraduate student may, with the dean's approval, withdraw from the University or drop a class except for urgent and substantiated, nonacademic reasons. For more information about deadlines for adding and dropping the course under different circumstances, please consult the Registrar's web page, http://registrar.utexas.edu/calendars/17-18/

Quest: This course makes use of the web-based Quest content delivery and homework server system maintained by the College of Natural Sciences. This homework service will require a $30 charge per student per class for its use, with no student being charged more than $60 a semester. This goes toward the maintenance and operation of the resource. Please go to http://quest.cns.utexas.edu to log in to the Quest system for this class. After the 12th day of class, when you log into Quest you will be asked to pay via credit card on a secure payment site. Quest provides mandatory instructional material for this course, just as is your textbook, etc. For payment questions, email quest.billing@cns.utexas.edu.

Computers: We don't make use of sophisticated software in this class, but if you find this interesting, you are welcome to use the department's computer facilities. Our 40-seat undergrad computer lab in RLM 7.122, is open to all students enrolled in Math courses. Students can sign up for an individual account themselves in the computer lab using their UT EID. We have most of the mainstream commercial math software: Mathematica, Maple, Matlab, etc., and an assortment of open source programs. If you come to my office you will see me use some of this software to help illustrate concepts. Please see me if you would like more information.

CalcLab: The Mathematics Department offers assistance to all students taking Calculus courses in our new Calc Lab. Here's the department's web page about this: https://www.ma.utexas.edu/academics/undergraduate/calculus-lab/ The Calculus Lab is open Monday through Friday, mostly from 2:00PM to 7:00PM, starting approximately the second week of classes. The Lab is in the STEM Learning Center in PCL. If you go there during those hours you will find two graduate Teaching Assistants and some undergraduate Learning Assistants whose job it is to help you learn the material, perhaps clarifying some point from our class or the textbook, perhaps giving hints on homework. Please take advantage of their help!

In addition to visiting the instructor or the teaching assistant during office hours, you might want to make use the services of the Sanger Learning and Career Center. The Sanger Center offers several forms of tutoring to students throughout the semester (for students in select math courses, including M408S):

- Calculus Refresher for M408L/S : Tue-Thu (9/5 - 9/7), 6:00-7:30pm ; UTC 3.132
- Drop-In Tutoring -- A free, walk-in study environment supported by Sanger's mathematics tutors
- Appointment Tutoring -- Individualized one-hour meetings with one of the mathematics tutors
- Final exam review
- Access to learning specialists and academic coaches

We proceed at a **VERY** brisk pace: we must cover 27
sections from the book, and leave time for two exams plus whatever reviews
you would like, with only 43 scheduled MWF classes! It will probably be
necessary to have the T.A. teach you some material on Tuesdays and Thursdays.
We will cover most of chapters 5,6,7,11,and 15 (phew!)
of the text, following this pattern (subject to minor variation):

- Ch. 5 Integrals (4-5 days)
- 5.3 The Fundamental Theorem of Calculus (review)
- 5.4 Indefinite Integrals and the Net Change Theorem
- 5.5 The Substitution Rule

- Ch. 6 Applications of Integration (2-3 days)
- 6.1 Areas between Curves
- 6.2 Volumes
- 6.3 Volumes by Cylindrical Shells (optional)

- Ch. 7 Techniques of Integration (9 days)
- 7.1 Integration by Parts
- 7.2 Trigonometric Integrals (light)
- 7.3 Trigonometric Substitution
- 7.4 Integration of Rational Functions by Partial Fractions
- 7.5 Strategy for Integration
- 7.7 Approximate Integration (optional)
- 7.8 Improper Integrals

- Ch. 14 Partial Derivatives (1 day)
- 14.3 Partial Derivatives

- Ch. 9 Differential Equations (optional -- not in special UT version of book)
- 9.3 Separable Equations
- 9.4 Models for Population Growth

- Ch. 15 Multiple Integrals (4 days)
- 15.1 Double Integrals over Rectangles
- 15.2 Double Integrals over General Regions

- Ch. 11 Infinite Sequences and Series (16 days)
- 11.1 Sequences
- 11.2 Series
- 11.3 The Integral Test and Estimates of Sums
- 11.4 The Comparison Tests
- 11.5 Alternating Series
- 11.6 Absolute Convergence and the Ratio and Root Tests
- 11.7 Strategy for Testing Series
- 11.8 Power Series
- 11.9 Representations of Functions as Power Series
- 11.10 Taylor and Maclaurin Series
- 11.11 Applications of Taylor Polynomials (optional)

You may have spent most of your mathematical life working on problems by yourself. This is a good thing; you become self-reliant. However, I strongly encourage you to work with one or two other students in this class on a regular basis. Challenge each other to solve the problems, to explain the concepts, and to ask each other for help. This is the way mathematics is done in the real world, and practicing this now can help you this semester and beyond.

Since you are adults, I leave it to you to monitor your level of understanding on your own, and to seek help when you need it. But please allow me to share my experience. Every student who starts this class has met the pre-requisites and has the expectation that he or she will succeed. Nonetheless, every semester, about one-fourth of this group of bright, hard-working students ends up with a D or F, or withdraws. No one likes this outcome. Please be attentive to your progress on homeworks and learning modules and midterms. If you find you are always asking other people for help while studying; if you find that it takes you hours and hours to complete every homework set; if the learning modules give you a lot of trouble; or you score less than half the possible points on a midterm exam: in these cases, you CAN succeed, but ONLY if you change your patterns immediately. Optimism is a wonderful thing but it alone cannot bring the results you may want. Please see me early in the semester if you think you may have trouble during this course. I can try to help you with the material, or with your study habits, or else advise you to withdraw. Let's make this the first-ever 100% successful Math 408S class!

One more suggestion: have fun this semester! Some of us think math is so cool that we end up doing it for a living. I will try to convey to you some of what's kewl, and invite you to consider majoring (or minoring) in math, joining the math club, or simply taking more math classes. I am always happy to talk in my office about mathematics topics beyond what we discuss in class.