Dokuz Eylül University Information Package / Courses Catalog

Description of Individual Course Units

Course Unit Code	Course Unit Title	Type Of Course	D	U	L	ECTS
MAT 5101	APPLIED MATHEMATICS	ELECTIVE	3	0	0	9

Offered By

Graduate School of Natural and Applied Sciences

Level of Course Unit

Second Cycle Programmes (Master's Degree)

Course Coordinator

PROFESSOR DOCTOR BAŞAK KARPUZ

Offered to

TRANSPORTATION ENGINEERING
Computer Engineering Non-Thesis
PHYSICS
COASTAL ENGINEERING
MARINE CHEMISTRY
Ph.D. in Biotechnology
COMPUTER ENGINEERING
HYDRAULIC ENGINEERING AND WATER RESOURCES
CONSTRUCTION MATERIALS
Nanoscience and Nanoengineering
Nanoscience and Nanoengineering
M.Sc. in Biochemistry
Mechanics
MARINE GEOLOGY AND GEOPHYSICS
PHYSICAL OCEANOGRAPHY
NATURAL BUILDING STONES AND GEMSTONES
PHYSICS
DESIGN AND PRODUCTION
Environmental Engineering
Computer Science
Mechatronics Engineering
ENVIRONMENTAL EARTH SCIENCES
GEOGRAPHICAL INFORMATION SYSTEMS - NON THESIS (EVENING PROGRAM)
Biomedical Tehnologies (English)
Industrial Ph.D. Program In Advanced Biomedical Technologies
Logistics Engineering (Non-Thesis-Evening)
GEOGRAPHICAL INFORMATION SYSTEMS
Industrial Ph.D. Program In Advanced Biomedical Technologies
Structural Engineering
NAVAL ARCHITECTURE
Computer Engineering
Machine Theory and Dynamics
CONSTRUCTION MATERIALS
MARINE LIVING RESOURCES
MARINE LIVING RESOURCES
THERMODYNAMICS
TRANSPORTATION ENGINEERING
Mechanics
MARINE CHEMISTRY
ENVIRONMENTAL EARTH SCIENCES-NON THESIS
Geothermal Energy
Mechanics
Marine Transportation Systems Engineering
GEOTECHNICAL ENGINEERING
Chemistry
THERMODYNAMICS
M.Sc. Metallurgical and Material Engineering
Mathematics
INDUSTRIAL ENGINEERING - NON THESIS
STRUCTURAL ENGINEERING
Machine Theory and Dynamics
GEOTECHNICAL ENGINEERING
Geophysical Engineering
Machine Theory and Dynamics
UNDERWATER ARCHAELOGY
EARTHQUAKE MANAGEMENT - NON THESIS
Mathematics
TRANSPORTATION ENGINEERING
ENVIRONMENTAL ENGINEERING
Industrial Engineering - Thesis (Evening Program)
Ph.D. in Computer Science
Ph.D. in Biotechnology
Design and Production
HYDRAULIC ENGINEERING AND WATER RESOURCES
NAVAL ARCHITECTURE
EARTHQUAKE MANAGEMENT
M.Sc. Geothermal Energy (Non-Thesis-Evening)
GEOGRAPHIC INFORMATION SYSTEMS
Chemistry
COASTAL ENGINEERING
Metallurgical and Material Engineering
Geographical Information Systems (Non-Thesis)
MARINE TRANSPORTATION SYSTEMS ENGINEERING
HYDRAULIC ENGINEERING AND WATER RESOURCES
DESIGN AND PRODUCTION
ENGINEERING MANAGEMENT- NON THESIS (EVENING PROGRAM)
INDUSTRIAL ENGINEERING - NON THESIS (EVENING PROGRAM)
Ph.D in Biochemistry
Energy
Computer Engineering
GEOPHYSICAL ENGINEERING
Mechatronics Engineering
Geotechnicel Engineering
Ph.D. in Occupational Health and Safety
Marine Transportation Systems Engineering
STRUCTURAL ENGINEERING
INDUSTRIAL ENGINEERING
Computer Engineering (Non-Thesis-Evening)
Energy
MARINE GEOLOGY AND GEOPHYSICS
Energy
Nanoscience and Nanoengineering
Metallurgical and Material Engineering
INDUSTRIAL ENGINEERING
CONSTRUCTION MATERIALS
THERMODYNAMICS
COASTAL ZONE MANAGEMENT
Chemistry
Occupational Healty and Safety
BIOTECHNOLOGY
Logistics Engineering
M.Sc. Mechatronics Engineering

Course Objective

This course will give the students basic concepts in linear analysis where the entities are the elements of finite dimensional linear spaces or the elements of infinite dimensional function spaces. Students will learn the analytical solution methods to obtain the exact solutions of the problems encountered in applications

Learning Outcomes of the Course Unit

1	will be able to understand the basic theory and techniques in linear algebra
2	will be able to understand the existence and uniquness theorem for sytem of linear equations
3	will be able to understand the basic theory and techniques in differential equations
4	will be able to understand Fourier s method for solving initial and boundary value problems of wave, heat, Laplace equations
5	will be able to understand Fourier integral methods for solving heat and wave equations in unbounded domains

Mode of Delivery

Face -to- Face

Prerequisites and Co-requisites

None

Recomended Optional Programme Components

None

Course Contents

Week	Subject	Description
1	Matrices Linear systems Gauss-Jordan elimination
2	Vector spaces Inner product and norm Linear transformations
3	Determinants Properties of determinant Cramer's rule Inverse matrix
4	Matrix eigenvalue problem Symmetric, skew-symetric and orthogonal matrices Diagonalization
5	Function spaces Inner product and norm in Function spaces Ortogonal, orthonormal set of functions
6	Second order ordinary differential equations Initial and boundary value problems Homogeneous linear differential equations Solution by variation of parameters
7	Midterm
8	The Sturm-Liouville problems Eigenvalues and eigenfunctions Orthogonal eigenfunction expansion
9	Partial differential equations Initial and boundary conditions Vibratig string, wave equation The method of sepation of variables, use of Fourier series
10	Solution of homogeneous and nonhomogeneous diffusion equation Two-dimensional diffusion equation
11	Laplace equation Steady state two-dimensional heat problems Laplace equation in a bounded domain
12	Wave equation Two-dimensional homogeneous and nonhomogeneus wave equations
13	Fourier integrals Heat equations in the whole and half spaces
14	Wave equation in unbounded domains, use of Fourier integrals

Recomended or Required Reading

Erwing Kreyszig, Advanced Engineering Mathematics, John Wiley&Sons, 9th edition, 2006.
Peter O'Neil, Advanced Engineering Mathematics, Thomson, 2007.

Planned Learning Activities and Teaching Methods

Lecture notes
Presentation
Problem solving

Assessment Methods

SORTING NUMBER	SHORT CODE	LONG CODE	FORMULA
1	MTE	MIDTERM EXAM
2	FIN	FINAL EXAM
3	FCG	FINAL COURSE GRADE	MTE * 0.40 + FIN * 0.60
4	RST	RESIT
5	FCGR	FINAL COURSE GRADE (RESIT)	MTE * 0.40 + RST * 0.60

*** Resit Exam is Not Administered in Institutions Where Resit is not Applicable.

Further Notes About Assessment Methods

None

Assessment Criteria

To be announced.

Language of Instruction

English

Course Policies and Rules

Attending at least 70 percent of lectures is mandatory.

Contact Details for the Lecturer(s)

ali.sevimlican@deu.edu.tr
melda.duman@deu.edu.tr

Office Hours

To be announced.

Work Placement(s)

None

Workload Calculation

Activities	Number	Time (hours)	Total Work Load (hours)
Lectures	13	3	39
Preparations before/after weekly lectures	13	6	78
Preparation for final exam	1	28	28
Preparing assignments	5	9	45
Preparation for midterm exam	1	18	18
Final	1	3	3
Midterm	1	2	2
TOTAL WORKLOAD (hours)			213

Contribution of Learning Outcomes to Programme Outcomes

PO/LO	PO.2	PO.3	PO.5	PO.6	PO.8	PO.9
LO.1
LO.2		3	4		3	3
LO.3	3
LO.4	3			3	4
LO.5	4		4	3	4

COURSE UNIT TITLE

DEGREE PROGRAMMES

Description of Individual Course Units

Offered By

Level of Course Unit

Course Coordinator

Offered to

Course Objective

Learning Outcomes of the Course Unit

Mode of Delivery

Prerequisites and Co-requisites

Recomended Optional Programme Components

Course Contents

Recomended or Required Reading

Planned Learning Activities and Teaching Methods

Assessment Methods

Further Notes About Assessment Methods

Assessment Criteria

Language of Instruction

Course Policies and Rules

Contact Details for the Lecturer(s)

Office Hours

Work Placement(s)

Workload Calculation

Contribution of Learning Outcomes to Programme Outcomes

CONTACT INFORMATION