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Course
Code: : 5103216 Course
Name : Engineering Mathematics II
Instructor
: Prof. Dr. Bülent
YEŞİLATA Theoretical / Practical / Credit : 3 / 0 / 3
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HARRAN UNİVERSITY ENGINEERING FACULTY
MECHANICAL ENGI0NEERING DEPARTMENT
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Course Name |
Code |
Semester |
T+U |
Credit |
AKTS |
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Engineering Mathematics II
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5103216 |
Spring |
3+0 |
3 |
5 |
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Prerequisite Courses |
None |
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Language of Course |
Turkish |
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Course class |
Elective |
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Coordinator of Course |
Prof. Dr. Bülent YEŞİLATA |
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Instructor |
Prof. Dr. Bülent YEŞİLATA |
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Course Assistant |
- |
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Objective of course |
1)
Determination, identification, formulation of the physical engineering
problems and gaining the skill of solving. 2)
Gaining skills of selecting and applying appropriate methods of analysis and
modeling 3)
Gaining skills of system, device and process modeling with advanced calculus-based methods. |
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Course Learning Output |
1)
Differential equations, linear algebra, complex analysis, 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)
Identification, formulation and solving skills of Multi-variable engineering
problems. 4)
Select the appropriate analysis methods and practice of individual ability to
act. 5)
Advanced level of knowledge of differential and integral calculus,
differential equations, linear algebra, complex analysis and integral
transformation of knowledge and application skills, ability to apply them to
engineering problems of physical |
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Course Contents |
Partial
differential equations and solution methods, complex numbers and complex
functions, integral transforms. The applications of important engineering
problems. |
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Weeks |
Plan
of Course at Semester |
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1 |
Introduction to the partial differential equations |
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2 |
Introduction to the engineering applications of partial differential equations |
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3 |
The solution methods of partial differential equations-1 |
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4 |
The solution methods of partial differential equations-2 |
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5 |
The solution methods of partial differential equations-3 |
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6 |
The solution methods of partial differential equations-4 |
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7 |
Complex numbers |
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8 |
Complex functions and eng. prob. applications |
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9 |
MID-TERM EXAM |
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10 |
Introduction to Integral transformations |
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11 |
The most widely used integral transformations |
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12 |
Eng with Integral transformation. prob. solution |
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13 |
The solution methods of important engineering problems-1 |
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14 |
The solution methods of important engineering problems-2 |
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General Sufficiency |
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The knowledge
of advance mathematics which includes derivative, integral calculation and ordinary differential equations, the knowledge
of basic sciences and engineering sciences |
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References |
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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 |
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Form of Assessment |
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Mid Exam and Task/Project Average of
Arithmetical: %40 Final:%60 |