Course Code:                               : 5103111

 Course Name                                :  Engineering Mathematics

  Instructor                                      : Prof. Dr. Bülent YEŞİLATA

  Theoretical /  Practical / Credit : 3 / 0 / 3

 Learning Activity

Estimated Time(Hour)

Evaluation

Theoretical Course (14 Week)0

3 x 14 = 42

Participation to class

Guided Problem Solving

None

 

Individual Study

3 x 14 = 42

 

Weekly homework problems solving

1 x 14 = 14

Individual or teamwork and report preparation for homework’s.

Term project

None

 

Midterm Exam

4 x 2 = 8

Open/ Closed exam

Final Exam

Exam                  : 2

Individual work    : 8

Open/ Closed exam

Quiz (4 piece)

Individual work    : 8

Open/ Closed exam

Research (internet/library)

 

 

Other(………………………. )

 

 

Total Course Load (Hours)

124

 

 

 

 

HARRAN UNİVERSITY ENGINEERING FACULTY

MECHANICAL ENGI0NEERING DEPARTMENT

           

Course Name

Code

Semester

T+U

Credit

AKTS

 

Engineering Mathematics

5103111

Fall

3+0

3

5

 

Prerequisite Courses

None

Language of Course

Turkish

Course class

Compulsory

Coordinator of Course

Prof. Dr. Bülent YEŞİLATA

Instructor

Prof. Dr. Bülent YEŞİLATA

Course Assistant

-

Objective of course

 1) Physical engineering problems to identify, formulate, and solve to gain

2) The appropriate mathematical analysis and modeling methods give the ability to vote and the application

3) the calculation of one variable, differential equations or linear algebra through the application of advanced mathematics skills to gain

Course Learning Output

1) Differential equations, linear algebra, differential operators and discrete mathematics, including the ability to interpret the problems of advanced mathematics topics.

2) The theoretical knowledge gained in the field of applied mathematics, modeling and solving engineering problems for the application of skills,

3) Engineering problems in one variable to identify, formulate, and solve;

Course Contents

Classification of physical systems and problems, matrices and matrix operations, Vectors, Tensors and Differential Operators, Ordinary differential equations and solution methods, important applications of engineering problems.

 

Weeks

Plan of Course at Semester

1

Classification of physical systems

2

Classification of physical problems

3

Matrices and engineering probe. application

4

Matrices operations,

5

Vectors

6

Tensors

7

Differential Operators

8

MID-TERM EXAM

9

Ordinary differential equations

10

Ordinary differential equations with applications in engineering systems, known

11

Ordinary differential equations solution methods

12

Ordinary differential equations solution methods

13

Important practices of engineering problems

14

Important practices of engineering problems

 

General Sufficiency

Knowledge of mathematics, including derivative and integral calculations, knowledge of basic sciences and engineering sciences.

 

References

1)   Advanced Calculus for Applications, Author: Francis Hilderbrand, Prentice Hall

2)   Advanced Engineering Mathematics, Author: Erwin Kreyszig, John Wiley Publishing

3)   Schaum's Outline of Advanced Calculus, Robert C. Wrede, Murray Spiegel

4)   Schaum's Mathematical Handbook of Formulas and Tables, Murray R Spiegel

Form of Assessment

Mid Exam and Task/Project Average of Arithmetical: %40

Final:%60

Projects:-

Homework:-