Spring2014MATH20Syllabus

Spring 2014: MATH 20: Fundamental Concepts of Calculus II

Section E: Monday, Wednesday, and Friday: 10:40 AM until 11:30 AM: Kalkin 325

Section H: Monday, Wednesday, and Friday: 1:55 PM until 2:45 PM: Votey Hall 207

MATH 20 is an introduction to integral calculus with a wide variety of applications. MATH 19, or its equivalent, is a pre-requisite.

Instructress: Joan Rosebush, (Rosi)

Office: Votey Hall 359

Telephone: (802) 656-8858

Fax: (802) 419-3847

E-mail: jrosebus@uvm.edu

Web-Site Address: www.uvm.edu/~jrosebus

Office Hours

Monday 4:00 PM until 6:00 PM

Tuesday 3:00 PM until 5:00 PM

If you need help, please ask! If you wish to meet with me other than during my office hours, please e-mail me days and times that are convenient for you to meet. I would be happy to make an appointment with you!

TEXTBOOK: CALCULUS WITH APPLICATIONS, 10^th Edition, by Lial, Greenwell, and Ritchey

Final grade for the class is based upon:

Quiz Average: 50%,

Mid-Term Grade: 30%, and

Final Examination: 20%.

FINAL EXAMINATION will be cumulative.

Make-up quizzes are not given. It is in your best interest to take every quiz, the mid-term, and the final examination. If you miss any of these, you earn a 0% for it.

No make-up evaluations are given.

Homework!

You are expected to actively participate in this course. Perfect attendance may help your final average in the class. Less than perfect attendance will not help your final grade. Comprenez-vous?

Do you require special accommodations? Please let me know by Friday afternoon, January 17, 2014, at 4:00 PM. I would be happy to accommodate you!

SPRIN 2014 MATH 20 TOPICS

‘Antiderivatives’

‘Substitution’

‘The Fundamental Theorem of Calculus’

‘The Area Between Two Curves’

‘Integration by Parts’

‘Volume and Average Value’

‘Continuous Money Flow’

‘Improper Integrals’

‘Functions of Several Variables’

‘Partial Derivatives’

‘Maxima and Minima’

‘Lagrange Multipliers’

‘Total Differentiation and Approximations’

‘Double Integrals’

‘Solutions of Elementary and Separable Differential Equations’

‘Euler’s Method’

‘Applications of Differential Equations’

‘Continuous Probability Models’

‘Expected Value and Variance of Continuous Random Variables’

‘Special Probability Density Functions’

‘Geometric Sequences’

‘Annuities: An Application of Sequences’

‘Taylor Polynomials at 0’

‘Infinite Series’

‘Taylor Series’

‘Newton’s Method’

‘L’Hopital’s Rule’

‘Integrals of Trigonometric Functions’