University of Memphis
Dept Math Sciences
Dwiggins
Spring 2025

 

Course outline for MATH 1920, Calculus II

 

We will cover five chapters from the text (Stewart, 9^th ed).
Chapters 6, 7, 8 cover applications and techniques of integral calculus.

Chapter 10 covers topics from analytic geometry (conic sections and polar coordinates).

Chapter 11 covers Sequences and Series.

We will not cover Chapter 9, which serves as an introduction to MATH 2120, Differential Equations.

 

Because the material from Chapter 11 is so very much different from everything else covered in the first year of calculus,
students have both historically and typically had more problems with this material than anything else, including the
material from Calc III.  Because these topics take so much time to grasp, it is to the students' disadvantage
to postpone covering this material until right before the end of the semester.  Thus, I start covering Chapter 11
during the first week of the semester, returning to it in segments as we master the material one step at a time.

 

 Course Description:

This course, the second in the Calculus sequence, is intended to provide students majoring
in the natural sciences with the mathematical tools and concepts needed to complete their
course work in other topics.  The main emphasis of Calculus I is that of derivatives and
differentiation, and the main emphasis of Calculus II is that of integrals and integration.

Topics to be covered in Calculus II include the definitions of the definite and indefinite integral,
techniques and applications of integration, infinite limits and limits at infinity, methods of
calculating plane area, volume, arc length, and surface area, the calculus of parametric curves,
polar coordinates and polar equations, the concepts of sequence and series, and power series
expansions of functions.  If time permits, at the end of the semester we will also discuss the
analytic geometry of conic sections.

Course Prerequisites:

MATH 1910 (Differential Calculus).  Since integration techniques involve methods of finding
antiderivatives, you must know the rules of derivatives backwards and forwards in order to proceed
with Integral Calculus.  An alternative choice for fulfilling this prerequisite is to take the business
calculus course, MATH 1830, followed by MATH 1900, Scientific Trigonometry.

Instructor:     D. P. Dwiggins (ddwiggns@memphis.edu)

                  BS, Physics, Southwestern at Memphis, 1980

                  MS, Mathematics, Memphis State University, 1984

                  PhD, Differential Equations, Southern Illinois University, 1993

 

Office:              Dunn Hall, Room 368, 678-4174

Hours:  11:30-12:30 Mon/Weds, 9:30-11:00 Tues/Thurs

 

Course Evaluation:

There will be four 100-point tests and a 100-point daily average based on quizzes
and/or written homework assignments.  The lowest of these five scores will be dropped,
leaving a total of 400 points.  The final exam is also worth 100 points, and can be used
to replace the lowest test score.  The semester average is then based on dividing this
500-point total by five.  You can raise this average using the additional homework
assignments posted online, giving a 600-point total to be divided by six.

 

Grade Calculation:

Based on the semester average, grades are assigned according to the posted Grade Scale.

 

Make-Up Policy:       Three-day make-up (with excuse) for missed test or exam.

No make-up for missed quizzes, students should turn in extra credit homework instead.

                            

Attendance Policy:  As needed for purposes of reporting to the University.