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Course Code: 
MATH 132
Semester: 
Spring
Course Type: 
Core
P: 
3
Lab: 
2
Laboratuvar Saati: 
0
Credits: 
4
ECTS: 
6
Prerequisite Courses: 
Calculus I
Course Language: 
English
Course Objectives: 
The aim of this course is to provide students with an understanding of sequences, series, analytic geometry in 3-space, limits and partial derivatives of functions of several variables, multiple integrals, line integrals of vector fields and their calculations.
Course Content: 

Applications of integrals; volumes of solids of revolution, arc length, areas of surfaces of revolution. Convergence of sequences. Convergence tests for series. Power, Taylor and Maclaurin series. Analytic geometry in 3-space. Functions of several variables, partial derivatives, extreme values. Double integrals

Course Methodology: 
1: Lecture, 2: Problem Solving
Course Evaluation Methods: 
A: Written examination

Vertical Tabs

Course Learning Outcomes

Learning Outcomes

Teaching Methods

Assessment Methods

1) Knows the concepts of convergence of sequences and series and performs related calculations.

1,2

A

2) Knows the concepts of vectors, lines, planes and quadric surfaces in 3-space and performs related calculations.

1,2

A

3) Knows the concept of double integrals and some of its applications and performs related calculations.

1,2

A
 
 

Course Flow

Week

Topics

Study Materials

1

Volumes by slicing - Solids of revolution,  

(From Textbook) 7.1,7.2

2

Arc Length and surface area,

7.3

3

Sequences and Convergence, Infinite Series,

9.1,9.2

4

Convergence Tests for Positive Series,

9.3

5

Absolute and Conditional Convergence, Power Series,

9.4,9.5

6

Taylor and Maclaurin Series, Applications of Taylor and Maclaurin Series,

9.6,9.7

7

Analytic Geometry in Three Dimensions, Vectors,

10.1,10.2

8

The Cross Product in 3-Space, Planes and Lines,

10.3,10.4

9

Quadric Surfaces, Functions of Several Variables, Limits and Continuity

10.5,12.1,12.2

10

Partial Derivatives, Higher-Order Derivatives, The Chain Rule

12.3,12.4,12.5

11

Linear Approximations, Differentials, Gradients and Directional Derivatives, Implicit Functions

12.6,12.7,12.8

12

Extreme Values, Extreme Values of Functions Defined on Restricted Domains, Lagrange Multipliers

13.1,13.2,13.3

13

Double Integrals, Iteration of Double Integrals in Cartesian Coordinates

14.1,14.2

14

Double Integrals in Polar Coordinates, Change of variables in double Integrals

14.4
 
 

Recommended Sources

Textbook

R. A. Adams and C. Essex, Calculus, 7th Ed., Pearson (2010)

Additional Resources

  
 
 

Material Sharing

Documents

  

Assignments

  

Exams

  
 
 

Assessment

IN-TERM STUDIES

NUMBER

PERCENTAGE

Mid-terms

2

100

Quizzes

0

0

Assignments

0

0

Total

 

100

CONTRIBUTION OF FINAL EXAMINATION TO OVERALL GRADE

1

40

CONTRIBUTION OF IN-TERM STUDIES TO OVERALL GRADE

  

60

Total

 

100
 

 

COURSE CATEGORY

  
 
 

Course’s Contribution to Program

No

Program Learning Outcomes

Contribution

1

2

3

4

5

1

The ability to make computation on the basic topics of mathematics such as limit, derivative, integral, logic, linear algebra and discrete mathematics which provide a basis for the fundamenral research fields in mathematics (i.e., analysis, algebra, differential equations and geometry)

        

X

2

Acquiring fundamental knowledge on fundamental research fields in mathematics

        

X

3

Ability form and interpret the relations between research topics in mathematics

    

X

    

4

Ability to define, formulate and solve mathmatical problems

        

X

5

Consciousness of professional ethics and responsibilty

X

        

6

Ability to communicate actively

          

7

Ability of self-development in fields of interest

        

X

8

Ability to learn, choose and use necessary information technologies

          

9

Lifelong education

          
 
 

ECTS

Activities

Quantity

Duration
(Hour)

Total
Workload
(Hour)

Course Duration (14x Total course hours)

14

5

70

Hours for off-the-classroom study (Pre-study, practice)

14

3

42

Mid-terms (Including self study)

2

8

16

Quizzes

      

Assignments

      

Final examination (Including self study)

1

12

12

Total Work Load

 

 

140

Total Work Load / 25 (h)

 

 

5.6

ECTS Credit of the Course

 

 

6
 
 

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