Calculus Pdf 170590 | Mat 233 Analytic Geometry Calculus Iii F07

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Course Title: Analytic Geometry & Calculus III Course No. MAT 233

Class Hours: 4 Laboratory Hours: 0 Credit Hours: 4

Department Head Approval: _________________________ Date: 2007-2008
Maria DeLucia, Ph.D.

Dean Approval: ____________________________
Reginald Luke, Ph.D.

Prerequisite:
MAT 132 (Analytic Geometry & Calculus II) or equivalent

Textbook of Course:
Title Calculus Multivariable
th
8 Edition
Author Howard Anton
Irl Bivens
Stephen Davis
Publisher Wiley

Catalog Course Description:
Emphasis is on the study of analytic geometry and calculus in three dimensions. Topics include
solid analytic geometry, partial derivatives, multiple integrals, and topics in vector analysis such
as Green’s theorem, the divergence theorem, surface integrals and Stokes theorem.

Recommended for students majoring in engineering, mathematics, computer science, social
science and the science related areas of chemistry and physics.

Objectives of Course:
1. Deal with abstract symbols, comprehend their use, and manipulate them in a variety of
situations.
2. Develop strong conceptual foundation.
3. Analyze mathematical situations with ideas and problem solving techniques.
4. Develop ability to make decisions about complex problems.
5. Establish underlying mathematical models for conceptual understanding.
6. To understand and analyze data intelligently in a technological society.
1

Catalog No. MAT 233

Course Outline MAT-233

Approximate
Chapters Topics Number
of Class in Weeks

12 Rectangular coordinates in 3–Space; 3
Sphere; Cylindrical Surfaces.
Vectors.
Dot Product; Projections.
Cross Product.
Parametric Equations of Lines.
Planes in 3–Space.
Quadric Surfaces.
Review Polar Coordinates
Cylindrical and Spherical Coordinates.
13 Introduction to Vector–Valued Functions. 3
Calculus of Vector–Valued Functions.
Change of Parameter; Arc Length.
Unit Tangent, Normal, and Binormal vectors.
Curvature.
Motion Along a Curve.
14 Functions of 2 or more variables. 4
Limits and Continuity.
Partial Derivatives.
Differentiability, Local Linearity, and Differentials
The Chain Rule
Directional Derivatives and Gradients.
Tangent Planes and Normal Vectors
Maxima and Minima of Functions of 2 variables.
Lagrange Multipliers.
15 Double Integrals. 3
Double Integrals over Nonrectangular regions.
Double Integrals in Polar Coordinates.
Parametric Surfaces; Surface Area.
Triple Integrals.
Centroid, Center of Gravity, Theorem of Pappus.
Triple Integrals in Cylindrical & Spherical Coordinates.
Change of Variables in Multiple Integrals; Jacobian.
16 Vector Fields. 1
Line Integrals.
Independence of Path; Conservative Vector Fields.
Green’s Theorem.
Surface Integrals.
Application of Surface Integrals; Flux.
The divergence Theorem.
Stokes’ Theorem.

The words contained in this file might help you see if this file matches what you are looking for:

...Course title analytic geometry calculus iii no mat class hours laboratory credit department head approval date maria delucia ph d dean reginald luke prerequisite ii or equivalent textbook of multivariable th edition author howard anton irl bivens stephen davis publisher wiley catalog description emphasis is on the study and in three dimensions topics include solid partial derivatives multiple integrals vector analysis such as green s theorem divergence surface stokes recommended for students majoring engineering mathematics computer science social related areas chemistry physics objectives deal with abstract symbols comprehend their use manipulate them a variety situations develop strong conceptual foundation analyze mathematical ideas problem solving techniques ability to make decisions about complex problems establish underlying models understanding understand data intelligently technological society outline approximate chapters number weeks rectangular coordinates space sphere cylin...

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