DEPARTMENT OF MECHANICS ENGINEERING

uglywoodMechanics

Oct 31, 2013 (4 years and 9 days ago)

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DEPARTMENT OF
MECHANICS

ENGINEERING



GENERAL INFORMATION

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CONTACT ADDRESS

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ADMINISTRATI
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ACADEMIC STAFF AND RESEARCH INTERESTS

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UNDERGRADUATE PROGRAM (SCHEDULE)
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Fi
rst Year



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First Semester


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Second Semester


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Second Year


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Third Semester


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Fourth Semester


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Third Year



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Fifth Semester


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Sixth Semester


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Fourth Year


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Seventh Seme
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Eighth Semester


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UNDERGRADUATE COURSE DETAILS

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POST GRADUATE COURSES
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POST GRADUATE COURSE DETAILS

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GENERAL INFORMATION


This department is the third oldest mechanical

engineering department in Turkey and
started its educational activities in 1969. The department has six divisions icluding
Thermodynamics, Materials Science, Construction and Manifacturing, Mechanics, Machine
Theory and Dynamics of Machinery, and Energy
.



Mechanical Engineering Department

is
a division dealing with education and research on the design, construction and operation of
the machines used in industry and the daily life of human.

Mechanical engineering

is a
broad engineering discipline with a c
urriculum providing a strong foundation in mathematics
and


physics followed by in
-
depth education in four of the principle engineering sciences,
thermal sciences, fluid engineering, materials science and engineering, solid mechanics and
mechanical design
.


The
main objective

of the department is to provide the required knowledge for the
rapidly developing science and technology, and to graduate engineers well educated parallel
to the developing technology with the required knowledge and ability to transmit

these
knowledge to practice, and having the ability to make analyses and syntheses.


The Department of Mechanical Engineering
offers
three
different

degrees
; BSc
,
MSc and PhD.

The capacity of the department is 100 student for the freshmen level
. T
he
numb
er of undergraduate, MSc and PhD students are approximately 560, 31 and 26,
respectively.

The academic and educational workload is shared by 11 professors,
6

associate
professors,
6

assistant professors,
1 lecturer
and
15

research assistants.


Up to now ov
er 2000
mechanical engineers have been graduated and approximately 200 graduate students have got
MSc and PhD degrees from this department.




Undergraduate program has been designed and developed to equip the students to
become a highly qualified engineer
ing professional in a career.
Our undergraduate program is
normally a
four year eduacation

but
one year English Language course is compulsory
before proceeding to department programs
.
30 percent of the courses are held in English
while the remaining 70 per
cent are in Turkish.
The department offers the students a strong
education in basic engineering science. At the same time, the students receive

a substantial
hands on laboratory and design experience. The department is equipped with classrooms,
teaching and

research laboratories and other facilities for students. The laboratories include
materials science laboratory, internal combustion laboratory, machine shop, machine elements
laboratory, thermodynamics laboratory, heating and climate laboratory, hydrolics

and fluids
laboratory.


The
Materials Science Laboratory

equipped with different furnaces for melting and
heat treatment,
tensile and hardness test units, and an

electron microscope which is used
for detailed

structural examination and microanalysis. The

Internal

Combustion

Engines
Laboratory


is equipped with internal combustion engine test unit and e
xhaust gas
analyzer
. The
M
achine Shop

mainly has the manufacturing equipment which is widely used by
seniors in their senior projects and by the researcher
s in setting up their experimental units. The
Machine Elements

Laboratory
is

equipped with experimental test units. The
Thermodynamics

Laboratory

is equipped with many heat transfer and flow test units. The
laboratory hols a wind tunnel.The
Heating and

Cl
imate

Laboratory

has several
experimental HVAC test units. The
Hydrolics

and Fluids

L
aboratory

is equipped with
a
xial turbine and centrifugal pump test units.
The department also has a

microcomputer
laboratory
which is used by students and faculty member
s.









http://www.
makina.ktu.edu.tr/



CONTACT
ADDRESS:


Karadeniz Technical University

Faculty of Engineering

Department of Mechanical Engineering

Trabzon 61080

TURKEY


P
hone


:

+90 462 377 29

05
and
+90 462 325
31

62


F
ax



: +90 462 325 5
5

26








ADMINISTRATION


CHAIRMAN:


Prof.
Ertan BAYDAR

Phone Numbers

: +90 462 377 29

05 and +90 462 377
29

62

E
-
Mail


:

baydar@ktu.edu.tr


DEPUTIES:


Assist.Prof. Yücel ÖZMEN

Phone Number

: +
90 462 377 35

76

E
-
Mail


:

yozmen@ktu.edu.tr


SECRETARY:


Ayşe EYÜBOĞLU

Phone Numbers

: +90 462 325 31

62 and +90 462 377 29

05

E
-
Mail


:

maksekreterlik@ktu.edu.tr


SOCRATES/ERASMUS Coordinator


Prof.
Me hmet Emin ARICI

Phone Number

: +90 462 377

29

00

E
-
Mail


:
arici@ktu.edu.tr














ACADEMIC STAFF AND RESEARCH INTERESTS

SUBDIVISION

RESEACHER

RESEARCH INTEREST

Thermodynamics

Prof. Burhan ÇUHADAROĞLU

Computational Fluids Dynamics, Hea
t
Transfer, Environmental Pollution

Prof. Ertan BAYDAR

Experimental and Numerical Fluids
Mechanics

Prof. Orhan AYDIN

Natural and Mixed Convection in
Enclosures, Electronics Cooling,
Material Processing, Heat Transfer in
Porous Media, Microscale Heat
Transfer, Micrptransport in Droplets,
CFD, Turbulence, Gas Radiation


Prof. Ahmet ÜNAL

Heat Exchangers, Natural Convection


in Enclosures

Prof. Alican DALOĞLU

Automobile Aerodynamics,


Heat and
Mass Transfer, Fluid Mechanics

Prof. M. Emin ARICI

Heat Transfer Enhancement,


Conbined
Heat Transfer


Assc
. Prof. Tülin BALİ

Heat Transfer in Rotating Flows,
Exergy Analysis in Haet Transfer
Syst
ems

Asst. Prof. Mustafa SARIOĞLU

Aerodynamics, Vortex Sheding

Asst. Prof
. Cevdet DEMİRTAŞ

Heat Transfer Enhancement in Boiler,
Drying,


Air
-
Conditioning, Heat
Exchanger

Res. Asst. Cemalettin AYGÜN

Fluid Mechanics, Heat Transfer

Res. Asst.

Birol BAŞ
AL

Heat Transfer

Res. Asst.

Erdem CÜCE

Thermodynamics, Heat Transfer

Res. Asst.
Osman TURAN

Heat Transfer

Res. Asst. Gürkan YEŞİLÖZ

Heat Transfer

Materials Science

Prof. Temel SAVAŞKAN

Materials Science and Tribology

Assc
. Prof. Gençaga PÜRÇEK

Ma
terials of Hydrodynamics Bearing,
Friction, Corrosion, Lubrication

Asst. Prof. Tevfik
KÜÇÜKÖMEROĞLU

Fatigue, Welding Methods

Asst. Prof. Yasin ALEMDAĞ


Res. Asst. Osman BİCAN

Materials Science , Tribology

Res. Asst.
Zeki AZAKLI

Materials Science

Res. Asst.

Onur SARAY

Materials Science

Construction and
Manifacturing

Prof. Aydın BIYIKLIOĞLU

Mechine Elements

Asst
. Prof. Hasan BAŞ

Bearings, Elstohydrodynamic
Lubrication, Tribology, Cam
Mechanisms

Lect. Mustafa Sabri DUMAN

Hydrodynamic Bearing

Me
chanics

Prof. Sami KARADENİZ

Mechanics


Prof. Hasan SOFUOĞLU

Mechanics, Characterization of
Mechanical Properties of Materials,
Cold and Hot Deformation of Metal
Forming Processes, Finite Element
Modelling and Analysis of Metal
Forming Processes, Finite
Element
Modelling and Analysis of Friction,
Failure Analysis/Investigation

Asst.
Prof.

Hasan GEDİKLİ

Mechanics,
Structural
-
Fluid interaction,
Finite Element Modelling and Analysis

Res. Asst. Recep GÜMRÜK

Mechanics

Machine Theory
and Dynamics of
Machi
nery

Prof. Muzaffer DOĞAN

Mechanic Vibration , Oil Film Bearing
Dampers

Assc.
Prof. Levent GÜMÜŞEL

Fuzzy Logic Control, Robots with
Elastic Arms

Res. Asst. Nurhan GÜRSEL

ÖZMEN

Flexible Robot Arms

Res. Asst. Murat Eray KORKMAZ

Artificial Neural Networ
ks

Energy

Asst. Prof. Yücel ÖZMEN

Fluids Mechanics, Heat Transfer

Asst.

Prof.

Mete AVCI

Thermodynamics, Heat transfer and
Duct Flows

Automotive

Prof. Orhan DURGUN

Internal Combustion Engines, Motor
Vehicles

Prof. Atilla BİLGİN

Internal Combustion Eng
ines, Fuels and
The Theory of Combustion, CFD,
Turbulence Modelling

Assc
. Prof. Hakan BAYRAKTAR

Internal Combustion Engines, Motor
Vehicles

Res. Asst. Derya SOYSAL

Energy





















U
NDERGRADUATE PROGRAM (SCHEDULE
)


FIRST YEAR

Ref. Code

Cour
se Title

EC

H+T+L

C/E

Lang.

MAK 111

Introduction to Mechanical
Engineering

2

2+0+0

C

T

MHN 111

Engineering Drawing

5

3
+1+0

C

T

MAT
H

117

Mathematics
-
I

4

4+0+0

C

E

PHYS 119

Physics
-
I

4

4+0+0

C

E

KIM 1
17

Basic Chemistry

4

4+0+0

C

T

TDB 101

Turkish Language

2

2+0+0

C

T

AITB 191

Atatü
rk’s Principles and
Revolution History I

2

2+0+0

C

T

ENF 143

Basic Computer

4

3+1+0

C

T

YDI 111

English
-
I

3

3+0+0

C

E

First Semester

30

27+2+0









MECH 104

Computer Programming


5

2+2+0

C

E

MHN 112

Computer Aided Engineering
Dr
awing

6

2+2+0

C

T

MHN 116

Statics

4

3+1+0

C

T

MAT
H

118

Mathematics
-
II

4

4+0+0

C

E

PHYS 118

Physics
-
II

4

4+0+0

C

E

TDB 102

Turkish Language II.

2

2+0+0

C

T

AITB 192

Atatürk’s Principles and
Revolution History
-
II

2

2+0+0

C

T

YDI 112

English
-
II

3

3+0+0

C

E

Second Semester

30

22+5+0



FIRST YEAR

60

49+7+0






SECOND YEAR

Ref. Code

Course Tit
le

EC

H+T+L

C/E

Lang.

MAK 261

Materials


Science
-

I

5

4+0+0

C

T

M
ECH

241

Mechanics of Materials
-

I

6

3+0+0

C

E

MECH

251

Engineering

Thermodynamics
-

I

6

3+0+0

C

E

MHN 244

Dynamics

6

4+0+0

C

T

MAT
H

203

Mathematics
-
III

4

4+0+0

C

E

YDI 211

English Reading and Writing

3

2+0+0

C

E

Third Semester

30

20+0+0









MAK 246

Materials Seience II

5

3+0+1

C

T

MECH 252

Engineering


Thermodynamics
-
II

6

3+0+0

C

E

MHN 242

Mechanics of Materials
-

II

6

3+0+0

C

T

MAT
H

204

Mathematics


IV

5

4+0+0

C

E

ELK 203

Fundamenta
ls of Electrical
Engineering

5

4+0+0

C

T

YDM 214

Professional English
-
I

3

2+0+0

C

E

Fourth Semester

30

19+0+1



SECOND YEAR

60

39+0+1






THIRD YEAR

Ref.Code

Course Title

EC

H+T+
L

C/E

Lang.

MAK 301

Manufacturing

Processes

4

4+0+0

C

T

MAK 303

Heat Transfer

6

4+0+0

C

T

MAK 307

Numerical
Analysis

4

3+0+0

C

T

MAK 317

Machine Elements


I

6

4+0+0

C

T

MAK 361

Experimental Methods in
Engineering

3

2+0+1

C

T

MHN 311

Fluid Mechanics

5

4+0+0

C

T

YDM 313

Professional Eng
lish
-
II

2

2+0+0

C

E

Fifth Semester

30

2
3
+0+1









MAK 302

Internal Combustion

Engines

6

4+0+0

C

T

MAK 304

Automat
ic Control

4

3+0+0

C

T

MAK 308

Machining Process&
Machine
To
ols

6

4+0+0

C

T

MAK 322

Machine Elements

II

6

4+0+0

C

T

YDM 314

English in Business

2

2+0+0

C

E

SEC

Technical Elective
-
I

3




SEC

Technical Elective
-
II

3




Technical Electives

SEC 302

Mechanisms

3

3+0+0

E

T

SEC 304

Composite Materials

3

3+0+0

E

T

SEC 306

Mechanical Behavior of Materials

3

3+0+0

E

T

SEC 308

Applied Fluid Mechanics

3

3+0+0

E

T

SEC 310

Heat and Mass Transfer

3

3+0+0

E

T

SEC 312

Hydraulic Machines

3

3+0+0

E

T

SEC 314

Introduction to Stress Analysis

3

3+0+0

E

T

SEC 316

Fuels and Combustion

3

3+0+0

E

T

SEC 318

Failure Analysis

3

3+0+0

E

T

SEC 320

Aerodynam
ics

3

3+0+0

E

T

SEC 322

Computer Aided Design

3

3+0+0

E

T

Sixth Semester

30

2
3
+0+0



THIRD YEAR

60

4
6
+0+1




FOURTH

YEAR

Ref.Code

Course Title

EC

H+T+L

C/E

Lang.

MAK 403

Dynamics of Machinery

6

4+0+0

C

T

MAK 409

Production Management

6

3+0+0

C

T

MAK 495

Mechanical Engineering Lab.
-
I

10

0+0+3

C

T

SEC

Technical Elective
-
III

4




SEC

Technical Elective
-
I
V

4




Technical Electives

SEC 401

Power Transmission

4

3+0+
0

E

T

SEC 403

Intro
.

to Finite Element Method

4

3+0+0

E

T

SEC 405

Nondestructive Testing

4

3+0+0

E

T

SEC 407

Machine Design

4

3+0+0

E

T

SEC 409

Heating Ventilation and Air
Conditioning (HVAC)

4

3+0+0

E

T

SEC 411

Materials Selection

4

3+0+0

E

T

SEC 413

Steam Boilers and Heat
Exchangers

4

3+0+0

E

T

SEC 415

Design of
Internal Combustion
Engine

4

3+0+0

E

T

SEC 417

Air Pollution

4

3+0+0

E

T

SEC 419

Bearing

Technology

4

3+0+0

E

T

SEC 421

Introduction to
Mechanics of
Composite Materials

4

3+0+0

E

T

SEC 423

Robotics and Kine
matics

4

3+0+0

E


SEC 427

Motor Vehicle

Thecnique

4

3+0+0

E


SEC

Computer Aided
Eng.Applications

4

3+0+0

E


Seventh Semester

30

13+0+3









MAK 4
16

Mechanical Engineering Lab.

II

6

0+0+3

C


MAK 474

Machine Desig
n


6

0+3+0

C


TEZ 400

Sen
ior Report

10

0+6+0

C


SEC

Technical Elective
-
V

4




SEC

Technical Elective
-
VI

4




Technical Electives

SEC 402

Transport Technique

4

3+0+0

E


SEC 404

Motor Vehicles

4

3+0+0

E


SEC 406

Thermal Power Plants

4

3+0+0

E


SEC 408

Engineering Economics

4

2+0+0

E


SEC 410

Refrigeration

Technigue

4

3+0+0

E


SEC 412

Hydroelectric Power Plants

4

3+0
+0

E


SEC 414

Renewable Energy Sources

4

3+0+0

E


SEC 416

Building Installation

4

3+0+0

E


SEC 420

Computer Aided Manufactaring

4

3+0+0

E


SEC 422

Powder Metallurgy

4

3+0+0

E


SEC 424

Energy Management

4

3+0+0

E


SEC 426

Design of Engine Components

4

3+0+0

E


Eighth Semester

3
0

6+9+3



FOURTH YEAR

60

19+9+6



SUM OF EIGHT SEMESTERS

240

1
53
+16+
8



*
EC

= ECTS Credits




H

= Hours


T = Training



L = Laboratory


C/E

= C: Compulsory; E: Elective

Lang.
= Language; E: English; T: Turkish






UNDERGRADUATE COURSE DETAILS

FIRST YEAR

FIRST SEMESTER



MAK 111 INTRODUCTION TO MECHANI
CAL
ENGINERI
NG( 2+0
+0)

EC:
2

Year / Semester

1
st

Year/ Fall Semester

Status

Compulsory

Department

Mechanical Engineering Department

Prerequisite / Recommended

None

Form of Teaching

Lectures (28hours) (2 hours per week )

Coordination/

Hamdullah Çuvalci

C
o
-
lecturer

Other teaching person

Language of instruction

Turkish


Objectives of the Course


To
introduce and endu
r
e

the mechanical engineering profession
and
the fields of
specialization in mechanical engineering

to the high school graduates accepted to

the
program as new students
,
and also

to introduce
the K
TU Mechanical Engineering program



Contents of the Course


Introduction of the KTU Mechanical Engineering Program and the regulations.


Engineering
profession and the place of mechanical engineeri
ng in it.


Development of mechanical
engineering.


Engineering ethics.


Contribution

of ME to the solution of soci
al problems.


Principal application areas of ME.

Feeling of being in the profession by sharing experience
of the alumni and colleagues and be
motivated

Textbook / Material

Engineering Science, BOLTON, W. , B.H. Newnes Co. , (1990).

Recommended
Reading

Introduction to Engineering, WRIGHT, P.H., A. KOBLASZ, W.E.
SAYLE II, John Wiley and Sons Inc., New York, (1989).

Method of Assessment

A writt
en mid
-
term exam (30%), quizzes and practical homeworks
(20%) and a written end
-
of
-
term exam (50%)


MHN 111

ENGINEERING DRAWING (3+1+0) EC: 5

Year / Semester

1
st

Year / Fall semester

Status

Compu
lsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) and practicals (14 hours) (4 hours per
week)

Lecturer

Mustafa Sabri Duman

Co
-
lecturer

Hasan Baş

Language of instruction

Turkish


Objectives

of the Course

The course aims to provide the students the ability of preparing technical drawings for
manufacturing of a machine element, and reading existing drawings.



Contents of the Course

The introduction of tools and materials in engineering draw
ing and standard concept.

Geometrical constructions.

Projection, views of objects.

Principles of dimensioning.

Perspective drawing.

Sectional views: Full and half sections.

Surface quality marks.

Principles of tolerancing: Tolerances of fit and form toler
ances.

Welded and riveted constructions.

Drawings of bolted joints.

Fundamentals of machine elements drawing
.


Textbook / Material

Course notes.

Şen, İ.Z. ve Özçilingir, N., 2003, Teknik Resim
-
Temel Bilgiler,
Ege Basım, 2.Baskı, İstanbul.

Recommended
Rea
ding

Boundy, A.W. and Hass, I.L., 1991, Technical Drawing, McGraw
-
Hill Book Company.

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical homeworks
(20%) and a written end
-
of
-
term exam (50%)




MAT
H

117 MATHEMATICS
-
I (4+0+0)

EC :4

Year / Semester

1
st

Year / Fall semester

Status

Compulsory

Department

Mathematics

Prerequisite / Recommended


None

Form of Teaching

Lectures (56 hours ) ( 4 hours per week)

Lectur
er

Ömer Pekşen

Co
-
lecturer

None

Language of instruction

English


Objectives of the Course


The aim of the course is to teach the basic mathematical techniques, introducing at the same
time a number of mathematical skills which can be used for the ana
lysis of problems. The
emphasis is on the practical usability of mathematics; this goal is mainly pursued via a large
variety of examples and

applications from these disciplines.



Contents of the Course

Real numbers. Absolute value. Inequalities.

Funct
ions of one variable. Kinds of functions:Rational, algebraic, exponential,
logarithmic and trigonometric functions and their graphics.

Limit. Continuity. Derivative. Rolle and Mean Value theorems. Higher order derivatives.
Leibnitz formula for deri
vatives. Maximum and minimum problems. L’Hospital Rule.


Asymptotes and constructing graphs.


Sequences and convergence. Convergence in Series. Power series and radius of
convergence. Taylor and Maclauran Series.


Indefinite integral their calcula
tions.

Definite integral and their applications. Fourier Series.


Textbook / Material


Differential and Integral Calculus, N. Piskunov

Recommended Reading


Mathematical Methods for Science Students, G. Stephenson.

Method of Assessment


A written mid
-
te
rm exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)



PHYS 119 PHYSICS
-
I (4+0+0) EC: 4

Year / Semester

1
st

Year / Fall semester

Status

Compulsory

Department

Physics Department

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Ekrem Yanmaz

Co
-
lecturer

None

Language of instruction

English


Objectives of the Course

The main object
ives of this course are to provide the student with a clear presentation of the
basic concepts and principles of physics.



Contents of the Course

Motion in one dimension.

Motion in two dimensions.

The laws of motion. Circular motion and other applicat
ion of Newton’s laws.

Work and energy. Potential energy.

Linear momentum and collisions.

Rotation of a rigid body. Rolling motion.

Angular momentum and torque. Oscillatory motion.

The law of universal gravitation.

Temperature. Thermal expansion and id
eal gases.

Heat and laws of thermodynamics

The kinetic theory of gases


Textbook / Material


Recommended
Reading

R.A.Serway
,

" Physics for Scientists & Engineers with Modern
Physics,” 3
rd

Ed. Vol. I,.

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical homeworks
(20%) and a written end
-
of
-
term exam (50%)
.



KIM 117
BASIC CHEMISTRY (4+0+0) EC: 4

Year / Semester

1
st

Year / Fall semester

Status

Compuls
ory

Department

Chemistry

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Neslihan Demirbaş

Co
-
lecturer

None

Language of instruction

English, Turkish


Objectives of the Course

The students should obta
in basic knowledge about the general chemistry topics, included in
the description.



Contents of the Course

Matter, The Elements, Compounds and Mixtures, Nomenclature.

Measurements, Mole,

Structures of Atoms and Atom Theories, Atomic Spectra and Energy

Levels, Quantum
Numbers, Orbitals, Electronic Configurations of Atoms, Periodic Table

Chemical Bonds.

Lewis Structures and Molecule Shapes.

Chemical Reactions, Solutions.

Chemical Equilibrium

Acid and Bases.

Gases.

Intermolecular Forces.

Liquid and Solid

Materials.

Thermochemistry.

Electrochemistry


Textbook / Material

Chemistry, Peter ATKINS and Loretta JONES.

Chemisrty, Charles E. MORTIMER

General Chemistry, PETRUCCI and HARWOOD

Chemistry and Chemical Reactivity, KOTZ and PURCELL

Recommended
Reading


Method of Assessment

A written mid
-
term exam (30%), quizzes and practical homeworks
(20%) and a written end
-
of
-
term exam (50%)


TDB 101 TURKISH LANGUAGE
-
I (2+0+0)




EC: 2

Year / Semester

1
st

y
ear
/
Fall semester

Status

Compulsary

Department

Department of Turkish Language

Prerequisite

None

Form of Teaching

Lectures (28 hours)
-

2 hours per week

Lecturer

Department of Turkish Language

Co
-
lecturer


Language of instruction

Turkish


Objecti
ves of the Course

The main aim of the Turkish language lecture is to explain the structural properties of Turkish
language to the students of higher education.



Contents of the Course

The description of the language, its qualities and place in a nations
life. The relations between
language and culture, languages in the world and the place of Turkish language among them,
The development of Turkish language and present situation of thinking, reading and
understanding language; writing and fealing of Turkish

words.

In addition to the above subjects we will also teach the following topics.

The way of explanations: oral explanation and talking the place of talking in a person life.
The way of talking (Conferences and lectures). Discussions and its kinds. Writte
n
explanation, preperation of academic writings, articles, papers and reports.


Textbook / Material

Adem KILIÇOĞLU, Şükür GÖRMÜŞ, Yylmaz YNCE, Osman
DEMYRAYAK
, YÖK.
-
Çerçeve Programyna Uygun “Türk Dili
ve Kompozisyon Bilgileri”

Prof. Dr. Zeynep KORKMAZ, P
rof. Dr. Ahmet Bican
ERCYLASUN, Prof.Dr. Hamza ZÜLFYKAR ve diğerleri,

Yüksek Öğretim Öğrencileri İçin Türk Dili ve Kompozisyon
Bilgileri”.

Prof.Dr. Kemal YAVUZ, Prof.Dr. Kazım YETİŞ, Prof.Dr. Necat
BİRİNCİ
, “Üniversite Türk Dili ve Kompozisyon Dersleri”

Recommended Reading

Prof.Dr. Tuncer GÜLENSOY
, “Türkçe El Kitabı

“İmla Klavuzu” TDK Yay. 1998

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)




AITB 191 ATATURK’S PRINCIPLES

AND

HISTORY OF TURKISH
REVOLUTION
-
I

(2+0+0)






EC:2

Year / Semester

1
st

year
/

Fall semester

Status

Compulsary

Department


Prerequisite

None

Form of Teachi
ng

Lectures (60 hours)
-

4 hours per week

Lecturer

The lecturers of The Department of Atatürk’s Principles &
History of Turkish Revolution

Co
-
lecturer

None

Language of instruction

English


Objectives of the Course

The main aim is
to provide accurate
information about war of independence, Atatürk’s
reforms, thinking on the basis of Atatürk’s ideas and to bring them up in accordance with the
target.



Contents of the Course

Bringing up the process of transformation from an empire to a national state, t
he meaning and
importance of the Turkish National Struggle for independence, and the philosophy behind the
formation of the new Turkish State.


Textbook / Material

Yüksek Öğretim Kurulu Yayınları, Atatürk İlkeleri ve İnkılap
Tarihi I ve II, Ankara, 1995. M. Kemal ATATÜRK, Nutuk,
Atatürk Araştırma Merkezi Yayını,Ankara,1997.

Recommended Reading


Method of Assessment

A written mid
-
term exam (30%), quizzes and practi
cal
homeworks (20%) and a written end
-
of
-
term exam (50%)



ENF 143
B
ASIC

C
OMPUTER
-
I

(3+1+0)


EC: 4

Year / Semester

1
st

Year / Fall semester

Status

Compulsory

Department

E
nformatics

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) and practicals (14 hours) (4 hours per
week)

Lecturer


Co
-
lecturer

None

Language of instruction

Turkish


Objectives of the Course

Introduction to PC Hardware, Introduction to Operat
ing Systems, MS
-
DOS, Windows98,
Internet Usage, MS
-
Office.



Contents of the Course

PC Hardware : Main hardware units, I/O units, Communications units, Storage and memory
units.

Operating Systems (OS) : Main knowledge about MS
-
DOS, Windows, Unix, Linux.
MS
-
DOS :Basic directory and file commands, Formating harddisk and disket.

Windows98 : Window’ structure, Desktop usage, File and directory operations,

rsaÖe 潦 c潮tr潬 灡nel E a摤Çrem潶e Üar摷are an搠s潦twareⰠ步y扯br搠an搠m潵se 灲潰çrties
etc⸮⸩

fnterne
t rsaÖe W eist潲y 潦 internetⰠ Br潷sersⰠct瀬⁔el
J
netⰠ b
J
mail⹗潲搲〰〠 W CreatinÖⰠ
usinÖⰠ savinÖ 灲inti湧 摯Çuments filesⰠ c潲matti湧 c潮tents E⁳electi湧 f潮t ty灥Ⱐf潮t size
etc⸮⸠F⸠KreatinÖ an搠usinÖ ta扬esⰠA摤ÇnÖ imaÖe fileⰠ maÖe 灲潰çrtiesK

bxcel㈰
〰MW ⁃reatinÖⰠ usinÖⰠ savinÖ 灲inti湧 excel filesⰠ t潲歳Üeets 灲潰çrties Er潷Ⱐc潬umnⰠ
cell operations). Usage of formules, Creating graphic, Formatting worksheets, Using data
operations (filtering, sorting, consolidate etc ...).

PowerPoint2000 : Creati
ng, saving and editing slides, Using effects, Making slideshows.


Textbook / Material

Syllabus

Recommended Reading


Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)





YDI

111

ENGLISH
-
I (3+0+0)


EC: 3

Year / Semester

1
st

Year / Fall semester

Status

Compulsory

Department

Foreign Language

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) (3 hours per week)

Lecturer

Muhammet K
ul

Co
-
lecturer

Mesut Demirkıran, Yusu
f Ay歡nat

Language of instruction

English



Objectives of the Course

To be able to read, write and translate in the field.



Contents of the Course

Course description: English at upper
-
intermediate and advanced leve
l


The Physical Sciences
:
What are the Physical Sciences?: classifying and defining,Latin roots:
order of events

Pioneers in Physical Science: Latin roots, order of events
The Earth Sciences
: The
Compostion of the Earth: using diagrams Why Volcanoes Exist
: Latin roots, results and
causes
Mathematics
: The Branches of Mathematics: dividing, divions and subdivisions
From Counting to Einstein: cause and effect, inference, chronological order
Applied Science
:

Applying Science to Our Lives: sentences that list

The Link Between Science and
Technology: reference, reasons and results


Textbook / Material

Reading and Writing
-
the English of Science and Technology

by Karl Drobnic, Sharon Abrams ve Marjorie Morray,
PranticeHall, Inc.

Recommended Reading


Method of
Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)








FIRST YEAR

SECOND SEMESTER


MECH 104

COMPUTER PROGRAMMING (2+2+0)


EC: 5

Year / Semester

1
st

Year / Sp
ring semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (28 hours) and practicals (28 hours) ( 4 hours per
week)

Lecturer

Levent Gümüşel

Co
-
lecturer


Language of instruction

English


Objectives of the Course

Insights and basic knowledge of solving problems by using FORTRAN. Presentation of
Fortran features and most important Fortran statements.



Contents of the Course

Formulas coding in Fortran

Real, Integer and Character Data


Sy
ntax and usage of Fortran statement

Input/Output handling

IF and ELSE IF blocks

DO CONTINUE Loop

DIMENSION, Array

Library Function and statement Function

Function and Subroutine

Double precision



File Processing


Textbook / Material


Recommended Reading

L
. NYHOFF, S. LEESTMA
,

FORTRAN 77 for Engineers and
Scientists (ISBN 0
-
02
-
388620
-
X).

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)



MHN 112


COMPUTER AIDED ENGINEERING DRAW
ING (2+2+0) EC: 6

Year / Semester

1
st

Year / Spring semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (28 hours) and practicals (28 hours)
-
4 hours per week)

Lectu
rer

Hasan Baş

Co
-
lecturer

M. Sabri Duman

Language of instruction

Turkish


Objectives of the Course

The objective of this course is to teach the students how to design and align elements of an assembly
and create assembly drawings in computer environmen
t.



Contents of the Course

Principles of assembly drawings.

Assembly drawings of sliding and roller bearings.

Gear drawings and their assembly drawings.

Introduction to computer aided technical drawing.

Basic drawing functions and multi
-
view projection.

General concepts in 3D modeling.

Surface quality marks.

Creating parts in 3D design.

Solid modeling.

Assembly modeling.


Textbook / Material

Course notes.

Şen, İ.Z. ve Özçilingir, N., 2004, Makina Resmi, Ege Basım, 1.Baskı,
İstanbul.

Çerçi, D. ve Bağcı, Ö, 1998, Tasarımda CAD, Melisa Mat
baacılık,
İstanbul.

Recommended Reading

Jensen, C. and Helsel, J., 1992, Fundementals of Engineering
Drawings, McGraw Hill

Inc.

Method of Assessment

One written midterm exam (30%), practical report (20%) and a written
end
-
of
-
term exam (50%)


MHN 116

STATICS (3+1+0)

EC: 4

Year / Semester

1
st

Year / Spring semester

Status

Compulsory

Department

Me
chanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) and practicals (14 hours)
-

4 hours per
week

Lecturer

Sami

Karadeniz, Hasan S
ofuoğlu

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

Engineering Mechanics is the branch of engineering that applies the principles of mechanics
to any design that must take into account the effect of forces. Main objective of

Co ur s e o n
S t a t i c s , whi c h c o ns i d e r s a c t i o n o f fo r c e s o n b o d i e s a nd fl ui d s t ha t a r e a t r e s t, i s t o i nt r o d uc e
t he s t ud e nt s t o t he e ngi ne e r i n g a p p l i c a t i o ns o f S t a t i c s .



Co nt e nt s o f t he Co urs e

Ge ne r a l Pr i nc i p l e s

Fo r c e Ve c t o r s

Eq ui l i b r i u m o f a Pa r t i c l e

Fo r
c e S ys t e m Re s ul t a nt s.

Eq ui l i b r i u m o f a Ri gi d Bo d y

S t r uc t ur a l Ana l ys i s.

Fr i c t i o n.

Ce nt e r o f Gr a vi t y a nd Ce nt r o i d.

Mo me nt o f I ne r t i a

Virtual Work


Textbook / Material


Recommended Reading

R. J . Hibbeler,
“ Engineering Mechanics : Statics”, SI
Edition,
P
rentice Hall,
1997.

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)



MAT
H

118
MATHEMATICS
-
II (4+0+0)

EC: 4

Year / Semester

1
st

Year / Spring semeste
r

Status

Compulsory

Department

Mathematics

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Ömer Pekşen

Co
-
lecturer


Language of instruction

English



Objectives of the Course

The aim of the course is to teach the basic mathematical techniques, introducing at the same
time a number of mathematical skills which can be used for the analysis of p
roblems. The
emphasis is on the practical usability of mathematics; this goal is mainly pursued via a large
variety of examples and applications from these disciplines.



Contents of the Course

Matrices and determinants.

Solutions of linear equations .Eig
envalues. Eigenvectors.

Cartesian coordinate system. Vectors. Linear independence. Inner product. Vector product.

Plane analytic geometry: Parabola. Hyperbola. Rotations and translations of axis. Polar,
cylindrical and spherical coordinates.

Functions of s
everal real variables. Limit. Continuity. Partial Derivatives. Chain rule. Minima
and maxima. Lagrange multiplier rule.

Taylor and Maclauran Series.

Line integrals.

Double Integrals and their applications. Double integrals in polar coordinates. Green
Theor
em.

Triple integrals and their applications. Triple integrals in Cylindrical and spherical
coordinates.

Surface integrals. Stocks theorem.


Textbook / Material

Ca
lculus and Analytic Geometry, Thomas.

Recommended Reading

Advanced Engineering Mathematics,
E.Kreyszig.

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)





PHYS
118

PHYSICS
-
II (4+0+0)

EC: 4

Year / Semester

1
st

Year / Spring semester

Status

Compulsory

Department

Physics

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Ekrem Yanmaz

Co
-
lecturer


Language of instruction

English



Objectives of the Course

The main objectives of this course a
re to provide the student with a clear presentation of the
basic concepts and principles of physics.



Contents of the Course

Electric fields. Gauss’ law. Electric potential. Capacitance and dielectrics. Current and
resistance. Direct current circuits. M
agnetic fields. Sources of the magnetic field. Farady’s
law. Inductance. Alternating current circuits. Electromagnetic waves. The nature of
light and the laws of geometric optics. Geometric optics. Interference of light waves.


Textbook / M
aterial


Recommended Reading

I,R.A.Serway
,

" Physics for Scientists & Engineers with
Modern Physics,” 3
rd

Ed. Vol
.

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)



TDB 102
TURKISH LANGUAGE
-
II (2+0+0)


EC: 2

Year / Semester

1
st

year / Spring semester

Status

Compulsory

Department

Department of Turkish Language

Prerequisite

None

Form of Teaching

Lectures (28 hours)
-

2 hours per week

Lecturer

Department of Turkish Language

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

The main aim of the Turkish language lecture is to explain the structural properties of Turkish
language to the students
of higher education.



Contents of the Course

The description of the language, its qualities and place in a nations life. The relations between
language and culture, languages in the world and the place of Turkish language among them,
The development of T
urkish language and present situation of thinking, reading and
understanding language; writing and fealing of Turkish words.

In addition to the above subjects we will also teach the following topics.

The way of explanations: oral explanation and talking th
e place of talking in a person life.
The way of talking (Conferences and lectures). Discussions and its kinds. Written
explanation, preperation of academic writings, articles, papers and reports.


Textbook / Material

Adem KILIÇOĞLU, Şükür GÖRMÜŞ, Yylmaz YNCE, Osman
DEMYRAYAK
, YÖK.
-
Çerçeve Programyna Uygun “Türk Dili
ve Kompozisyon Bilgileri”

Prof. Dr. Zeynep KORKMAZ, Prof. Dr. Ahmet Bican
ERCYLASUN, Prof.Dr. Hamza ZÜLFYKAR ve diğerleri,

Yüksek Öğretim Öğrencileri İç
in Türk Dili ve Kompozisyon
Bilgileri”.

Prof.Dr. Kemal YAVUZ, Prof.Dr. Kazım YETİŞ, Prof.Dr. Necat
BİRİNCİ
, “Üniversite Türk Dili ve Kompozisyon Dersleri”

Recommended Reading

Prof.Dr. Tuncer GÜLENSOY
, “Türkçe El Kitabı

“İmla Klavuzu” TDK Yay. 1998

Method

of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)



AITB 192

ATATURK’S PRINCIPLES AND

HISTORY OF TURKISH
REVOLUTION
-
II


(2+0+0)




EC:2

Year / Semester

1
st

Y
ear
/
Spring semester

Status

Compulsary

Department


Prerequisite

None

Form of Teaching

Lectures (60 hours)
-

4 hours per week

Lecturer

The lecturers of The Department of Atatürk’s Principl
es &
History of Turkish Revolution

Co
-
lecturer

None

Language of instruction

English


Objectives of the Course

The main aim is
to provide accurate information about war of independence, Atatürk’s
reforms, thinking on the basis of Atatürk’s ideas and to
bring them up in accordance with the
target.



Contents of the Course

Bringing up the process of transformation from an empire to a national state, the meaning and
importance of the Turkish National Struggle for independence, and the philosophy behind the

formation of the new Turkish State.


Textbook / Material

Yüksek Öğretim Kurulu Yayınları, Atatürk İlkeleri ve İnkılap
Tarihi I ve II, Ankara, 1995. M. Kemal ATATÜRK, Nutuk,
Atatürk Araştırma Merkezi Yayını,Ankara,1997.

Recommended Reading


Method of As
sessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)






YDI 112
E
NGLISH
-
II

(3
+0+0)


EC:
3

Year / Semester

1
st

Year / Spring semester

Status

Compulsory

Department

Foreign Languages

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) (

3 hours per week
)

Lecturer

Muhammet Kul

Co
-
lecturer

Ümit Yurduseven, Mesut Demirkıran

Language of instruction

English


Objectives of the Course

To be able to read and translate in English



Contents of the Course

Course description: English at upper
-
intermediate and advanced level

The Physical Sciences
: The Sources of Energy: listing in a series Nuclear Power
-
Yes or
No?: comparing, contrasting, supporting opinions
The Earth Sciences
: The Explosion of
Mount St. Helens: comparing, describing, supporting opinions

Volcanoes of the past: reference, chr
onology, results and causes
Mathematics:

S t a t i s t i c s
a n d t h e A n a l y s i s o f I n f o r ma t i o n: u s i n g s t a t i s t i c s t o ma k e c o mp a r i s o n s S t a t i s t i c s,, P r o b a b l i t y,
a n d P o p u l a t i o n: u s i n g f a c t s a n d o p i n i o n s t o g e t h e r

A p p l i e d S c i e n c e
: A u t o ma t i o n


F o r B e t t e r o r Wo r s e: r
e p o r t e d s p e e c h T r a n s f e r r i n g We s t e r n
T e c h n o l o g y t o D e v e l o p i n g n a t i o n s: i n f e r e n c e, u s i n g e x a mp l e s


T e x t b o o k / M a t e r i a l


R e c o mme n d e d R e a d i n g

R e a d i n g a n d Wr i t i n g
-
t h e E n g l i s h o f S c i e n c e a n d T e c h n o l o g y

b y K a r l D r o b n i c, S h a r o n A b r a ms v e M a r j o r i e M o r r a y,
P r a n t i
c e H a l l, I n c.

M e t h o d o f A s s e s s me n t

A w r i t t e n mi d
-
t e r m e x a m ( 3 0 % ), q u i z z e s a n d p r a c t i c a l
h o me w o r k s ( 2 0 % ) a n d a w r i t t e n e n d
-
o f
-
t e r m e x a m ( 5 0 % )
























SECOND YEAR

THIRD

SEMESTER




MA
K

261

MATER
I
ALS SC
I
ENCE 1

(4
+0+0)


E
C: 6

Year / Semester

2
nd


Year / Fall semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Temel Savaşkan, Fazlı Arslan

Co
-
lecturer


Language
of instruction

Turkish


Objectives of the Course

Insights and basic knowledge of atomic, crystal and metallographic structure of metals and
alloys, deformation of metals, constitution of alloys, equilibrium diagrams and phase
transformations, iron and ste
el making, corrosion and polymers.



Contents of the Course

Introductory concepts: Atomic structure

Crystal structure and crystal defects

Deformation of metals

Solidification of metals and alloys

Constitution of alloys

Equilibrium diagrams and phase tran
sformations

The iron
-
carbon phase diagram and iron and steel making

Classification of steels

Corrosion of metals

Polymers


Textbook / Material

Temel Savaşkan,
“Malzeme Bilgisi ve Muayenesi
(Materials Science and Testing of Materials)”,

İkinci Baskı, Dery
a Kitapevi, 2000, Trabzon
-
TURKEY
(ISBN 975
-
486
-
8053
-
15
-
9)

S. H. Avner,
“Introduction to Physical Metallurgy”,
Second Edition, McGraw
-
Hill Book Company, 1974,
(ISBN 0
-
07
-
085018
-
6)

Recommended Reading

D. R. Askeland,
“The Science and Engineering of
Material
s”, VNR International, 1988 (ISBN 0
-
278
-
00057
-
6)

W. F. Smith,
“Principles of Materials Science and
Engineering”, Third edition, McGraw
-
Hill, Inc., 1996
(ISBN 0
-
07114717
-
9)

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homew
orks (20%) and a written end
-
of
-
term exam (50%)






MECH

241
MECHAN
I
CS OF MATER
I
ALS
I

(3
+0+0)

EC: 6

Year / Semester

2
nd


Year / Fall semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) (3 hours per week)

Lecturer

Sami Karadeniz
,

Hasan Sofuoğlu

Co
-
lecturer


Language of instruction

English


Objectives of the Course

The purpose of this course is to provide the student with a clear presentation of the theory and
application of the principles of engineering mechanics and to develo
p students’ ability to
analyze problems based on the understanding of its basic concepts.



Contents of the Course

Internal Forces and Shear and Bending Moment Diagrams

Concepts of Stress and Strain

Mechanical Properties of Materials

Normal Loading

Torsio
n

Pure Bending


Textbook / Material

R.C
Hibeler,


Mechanics of materials

, 3rd edition, (ISBN
0
-
13
-
256983
-
3)
, Prentice Hall, 2002.

Recommended Reading


F.P. Beer, E.R Johnston, Jr.
, “
Mechanics of materials

, 2nd
edition, (ISBN 0
-
07
-
112939
-
1)

Method of
Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)






M
ECH

251
ENGINEERING THERMODYNAMI
CS
-
I

(3
+0+0)

EC:
6

Year / Semester

2
nd


Year / Fall semester

Status

Compul
sory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) (3 hours per week)

Lecturer

Ahmet Ünal
, Orhan Aydın

Co
-
lecturer


Language of instruction

English


Objectives of the Course

The course introduces the student to behaviour of pure substances and use of various forms of
equations of state. The fundamentals are presented through first and secon
d laws of
thermodynamics. Analysis and solutions of problems in closed system and control volume
applications are emphasized.



Contents of the Course

Basic concepts and definitions.

Pure substance and property of a pure substance.

I
deal

gas and state eq
uation for an ideal gas.

The first law of thermodynamics.
Open systems

First law of thermodynamics: Closed systems

The second

law of thermodynamics



Textbook / Material

Yunus A. Çengel, Michael A. Boles
,


Thermodynamics: An
Engineering Approach

, 4th
edition,

Recommended Reading

Yunus A. Çengel, Michael A. Boles “Mühendislik
Yaklaşımıyla Termodinamik”, 3. baskı, (ISBN 975
-
7860
-
78
-
6)

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term e
xam (50%)




MHN 244
DYNAMICS

(4
+0+0)


EC: 6

Year / Semester

2
nd


Year / Spring semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours)
-

4 hours per week

Lecturer

Sami Karadeniz
, Hasan Sofuoğlu

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

Newton’s Laws, Kinematics, Free Body, Kinetics




Contents of the Course

Kinematics of a Particle

Kinetics of a Particle; Force and Acceleration

Kinetics of a Part
icle ; Work and Energy

Kinetics of a Particle; Impulse and Momentum

Planar Kinematics of a Rigid Body.

Planar Kinetics of a Rigid Body :Force and Acceleration

Planar Kinetics of a Rigid Body :Work and Energy

Planar Kinetics of a Rigid Body :Impulse and Mom
entum

Three

aimensiçnal hinematics 潦 a⁒iÖi搠 B潤ç

qÜree

aimensiçnal hinetics 潦 a⁒iÖi搠 B潤çK


Textbook / Material


Recommended Reading

R.C.
Hibeler,


Engineering Mechanics : Dynamics”, SI
b摩ti潮Ⱐ mrentice eallⰠㄹ㤷N

Method of Assessment

A written

mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)

MAT
H

203

MATHEMATICS
-
III

(4
+0+0)


EC: 4

Year / Semester

2
nd


Year / Fall semester

Status

Compulsory

Department

Mathematics

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Ziya Yapar

Co
-
lecturer


Language of instructio
n

English


Objectives of the Course

This is one of the basic calculus course which serves as the foundation of all advanced
subjects in applied and theoretical mathematics.



Contents of the Course

Constructing Differential equations and solutions.

Ordin
ary differential equations.

Higher order linear differential equations.

The system of differential equations.

Introduction to the partial differential equations. Separation of variables.


Textbook / Material


Recommended Reading

Şafak Alpay, Ersan Akyıldız, Albert Erkip,

" Lectures on
Differential Equations”, Matematik Vakfı, 1995.

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)





YDI 211
ENGL
I
SH
READ
I
NG AND WR
I
T
I
NG
(2
+0+0)

EC:
3

Year / Semester

2
nd


Year / Fall semester

Status

Compulsory

Department

Foreign Languages

Prerequisite / Recommended

None

Form of Teaching

Lectures (28 hours) ( 2 hours per week)

Lecturer

Muhamm
et Kul

Co
-
lecturer

Mesut Demirkıran

Language of instruction

English


Objectives of the Course

To be able to read, write and translate in the field.




Contents of the Course

Course description: Academic studies in reading and writing beyond the secondary level

Life Scien
ces
:
The Science of Living Things: recognizing and using formal definitions From
Aristotle to DNA: Greek roots, using choronological order Genetic Engineering: examples
with ‘’such as’’: The Manipulation of Genetic Traits: thinking in English, deduction
and
subdivisions
Applied Science
: Automation


For Better or Worse: reported speech
Transferring Western Technology to Developing nations: inference, using examples


Textbook / Material

Reading and Writing
-
the English of Science and Technology

by Karl
Drobnic, Sharon Abrams ve Marjorie Morray,
PranticeHall, Inc.

Recommended Reading


Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)




SECOND YEAR

FOURTH

SEMESTER


MA
K

246
MA
TER
I
ALS SC
I
ENCE II

(3
+0+1)

EC: 5

Year / Semester

2
nd


Year / Spring semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) and Practicals (14 hours) (4 h
ours per
week)

Lecturer

Temel Savaşkan, Fazlı Arslan

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

Insights and basic knowledge of heat treatment of steel, case hardening methods, alloy steels
and testing of structure and mecha
nical properties of engineering materials.



Contents of the Course

Heat treatment of steel: Full annealing, normalizing, spherodizing and hardening

Isothermal transformation (TTT) diagrams

Hardenability

Tempering

Case hardening

Alloy steels

Priciples of
materials testing, metallography

Hardness, tensile and compression tests

Impact, fatigue and creep tests

Bend, Erichsen and torsion tests

Definitions for statics, principles of statics, equilibrium of a particle, force system resultants,
equilibrium of a r
igid body, trusses, friction, center of gravity and centroid, definitions for
dynamics, kinematics of a particle, kinetics of a particle, vibrations


Textbook / Material

Temel Savaşkan,
“Malzeme Bilgisi ve Muayenesi” (Materials
Science and Testing of Mate
rials)

İkinci Baskı, Derya Kitapevi, 2000, Trabzon
-
TURKEY (ISBN
975
-
486
-
8053
-
15
-
9)

S. H. Avner,
“Introduction to Physical Metallurgy”, Second
Edition, McGraw
-
Hill Book Company, 1974, (ISBN 0
-
07
-
085018
-
6)

Recommended
Reading

D. R. Askeland,
“The Science a
nd Engineering of Materials”,
VNR International, 1988 (ISBN 0
-
278
-
00057
-
6)

W. F. Smith,
“Principles of Materials Science and Engineering”,
Third edition, McGraw
-
Hill, Inc., 1996 (ISBN 0
-
07114717
-
9)

Method of Assessment

A written mid
-
term exam (30%), qu
izzes and practical homeworks
(20%) and a written end
-
of
-
term exam (50%)




M
EC
H 252
ENG
I
NEER
I
NG THERMODYNAM
I
CS II

(3
+0+0)

EC: 6

Year / Semester

2
nd


Year / Spring semester

Status

Compulsory

Department

Mechanical Engineering

Pre
requisite / Recommended

None

Form of Teaching

Lectures (42 hours)
-

3 hours per week

Lecturer

Ahmet Ünal, Orhan Aydın

Co
-
lecturer


Language of instruction

English


Objectives of the Course

The student is introduced to the concepts of availability and
on component and cycle
performance. Gas mixture behaviour and properties are studied and applied to psychrometric
processes and combustion analysis
.



Contents of the Course

Entropy

Irreversibility and Availability


Power Cycles With Gas Fluids

Steam Powe
r Cycles

Refrigeration cycles

Mixture of ideal gases

Air
-
vapor mixture.


Textbook / Material

Yunus A. Çengel, Michael A. Boles
,


Thermodynamics: An
Engineering Approach

, 4th edition,

Recommended Reading

Yunus A. Çengel, Michael A. Boles “Mühendislik
Ya
klaşımıyla Termodinamik”, 3. baskı, (ISBN 975
-
7860
-
78
-
6)

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)





MHN 242
MECHAN
I
CS OF MATER
I
ALS
-
II

(3
+0+0)

EC:
6

Year / Semester

2
nd


Year / Spring semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42 hours) (3 hours per week)

Lecturer

Sami Karadeniz,
Hasan Sofu
oğlu

Co
-
lecturer


Langu
age of instruction

Turkish


Objectives of the Course

The purpose of this course is to provide the student with a clear presentation of the theory and
application of the principles of engineering mechanics and to develop students’ ability to
analyze proble
ms based on the understanding of its basic concepts.



Contents of the Course

Transverse Loading

Transformations of Stress and Strain

Design of Beams and Shafts

Deflection of Beams and Shafts

Energy Methods

Buckling of Columns


Textbook / Material

R.C
Hi
beler, “Mechanics of materials”
, 3rd edition, (ISBN
0
-
13
-
256983
-
3)
, Prentice Hall.

Recommended Reading

F.P. Beer, E.R Johnston, Jr., “Mechanics of materials”
, 2nd
edition, (ISBN 0
-
07
-
112939
-
1)
, McGraw Hill.

Method of Assessment

A written mid
-
term exam (
30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)






MAT
H

204
MATHEMAT
I
CS
-
IV

(4
+0+0)

EC: 5

Year / Semester

2
nd


Year / Spring semester

Status

Compulsory

Department

Mathematics

Prerequisite / Rec
ommended

None

Form of Teaching

Lectures (56 hours) ( 4 hours per week)

Lecturer

Ziya

Yapar

Co
-
lecturer


Language of
instruction

English


Objectives of the Course

This is an introductory course in complex analysis, giving the basics of the theory, with an
emphasis on complex integration.



Contents of the Course

Complex numbers and functions of complex variables, analy
tic functions.

Complex sequences and series.

Elementary functions.

Complex integration and Cauchy’s theorem, Cauchy’ integral theorem.

Residues, Residue theorem.

Conformal mapping.

Laplace and Fourier transformations
.


Textbook / Material

R.V.Churcill, J.
W.Brown; Complex Variables and Applications,
McGraw
-
Hill, 1984


Recommended
Reading

S.D.Fisher; Complex Variables, Wadsworth&Brodes/cole, 1990

J.E.Marsden; Basic complex analysis, W.H.Freeman and Co. 1973

Method of Assessment

A written mid
-
term exam (
30%), quizzes and practical homeworks
(20%) and a written end
-
of
-
term exam (50%)



ELK 203
FUNDAMENTALS OF ELECTR
I
CAL ENG
I
NEER
I
NG

(4
+0+0)
EC:
5

Year / Semester

2
nd


Year / Spring semester

Status

Compulsory

Department

Electrical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) (4 hours per week)

Lecturer

İsmail H. Altaş

Co
-
lecturer

H.İ. Okumus

Language of instruction

Turkish


Objectives of the Course

To provide an introduction to the basic topics in electrical circuits, machines, and their
utilization in industrial applications.



Contents of the Cour
se

Basic definitions for electricity, voltage, current and power. Circuit laws and applications to
direct and alternating current circuits. Direct and alternating current machines. Basics of
power electronics and drive systems. Operating and controlling el
ectrical machines in
industrial applications. Computer based examples for all topics.


Textbook / Material

Lecture notes and computer softwares

Electrical Machines, drives, and Power Systems by T. Wildi,


Prentice Hall .

Electrical Technology by McKenzie,

Smith, Hughes,
Addison
-
Wesley
-

Longman Books.

Electric Circuits Analysis by S. A. Boctor,


Prentice Hall

Recommended Reading


Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%
)





YD
M

21
4

PROFESS
I
ONAL ENGL
I
SH
-
I

(2
+0+0)

EC:
3

Year / Semester

2
nd


y
ear / Spring semester

Status

Compulsory

Department


Prerequisite / Recommended

None

Form of Teaching

Lectures (28

hours) (
2 hours per week
)

Lecturer

Habi
p Asan, Levent Gümüşel

Co
-
lecturer


Language of instruction

English


Objectives of the Course

To develop the ability to read and comprehend technical texts in the field of Mechanical
Engineering. vocabulary building through the study of word constructi
on, ability to write
formal definitions of technical terms and expression, ability to analyze information presented
in graphs, charts, tables, etc., remedial grammar; i.e., recognizing various grammatical
structures that will aid the student improve his/he
r rhetorical knowledge.


Contents of the Course

The design
s
ymbols and terms used in Mechanical Engineering

Translation of engineering related articles

Organization of a Formal Proposal

Engineering Materials, Vectors, Force, Friction, Levers,
S
tress and S
train,

Ideal and Practical Machines, Four
-
Stroke Petrol Engine
.


Textbook / Material

Eric H. Glendinning “
Eng
lish in Mechanical Engineering
,


Oxford Univ. 1974(ISBN 019437501 3)

Articles from various engineering oriented journals.

Recommended Reading

Di
ctionaries:

A suitable English
-

English dictionary is
strongly recommended (Oxford
-

Advanced Learners
Dictionary, or Webster's New Collegiate Dictionary ). In
addition, Chambers Dictionary of Science and Technology
may be consulted for exact definitions
of technical terms

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)





THIRD YEAR

FIFTH

SEMESTER



MAK 301
M
ANUFACTURING

PROCESSES

(4+0+0)


EC:
4

Year / Semester

3
rd


Year / Fall
semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours) (
4 hours per week
)

Lecturer

Temel Savaşkan, Fazlı Arslan, Tevfik Küçükömeroğlu

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

Insights and basic knowledge of melting and casting, welding and metal working.



Contents of the Course

Casting: Casting sands

and pattern making

Moulding and casting methods

Melting furnaces

Casting of metals and alloys

Welding: Electric arc welding

Flame and arc cutting

Welding electrodes

Soldering

Plastic working: Cold and hot working

Forging

Rolling

Extrusion

Wire drawing

For
ming of sheet metals: Deep drawing, spinning and stretch forming


Textbook / Material

E. S. Kayalı ve C. Ensari, İTÜ Kimya
,

“Metallere Plastik
Şekil Verme İlke ve Uygulamaları”, Üçüncü baskı,
-
Metallurji Fakültesi, İstanbul, 2000 (ISBN 975
-
561
-
170
-
3)

L. Çapan,
“Metallere Plastik Şekil Verme”, İkinci baskı,
Çağlayan Basımevi, İstanbul, Turke
y, 1990 (ISBN 975
-
436
-
008
-
1).

Recommended Reading

1. “Malzemelerin Yapısı ve Mekanik Davranışları”,
İkinci baskı, H. Çimenoğlu ve E. S. Kayalı, İTÜ Kimya
-
Metalurji Fakültesi, Yayın No: 4, İstanbul, 1991.

2. “Metals Handbook”, Desk Edition, American Societ
y
for Metals, Metals Park, Ohio, USA, 1985 (ISBN 0
-
87170
-
188
-
X)

Method of Assessment

A written mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)




MAK 303 HEAT TRANSFER (4+0+0)


EC:6

Year / Semester

3
rd


Year / Fall
semester

Status

Compulsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (56 hours)
-

4 hours per week

Lecturer

Orhan Ayd
ın

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

To acquaint students with the underlying principles of conduction, convection, and radiation
heat transfer

To enable students to analytically and numerically solve steady and tran
sient heat transfer
problems with one or more spatial dimensions

To impart an ability to apply principles and solution techniques to quantitative engineering
problems in a design context.



Contents of the Course

Introduction

Conduction

1
-
D Steady State

2
-
D Steady State

Unsteady Conduction

Convection

External Convection

Internal Convection

Free Convection.


Textbook / Material

F.C. Incropera and D.P. DeWitt,
"Heat Transfer", 4th
edition, Wiley, 1996.

Recommended Reading


Method of Assessment

A written

mid
-
term exam (30%), quizzes and practical
homeworks (20%) and a written end
-
of
-
term exam (50%)



MAK 307

N
UMERICAL

ANALYS
I
S

(3+0+0)


EC: 4

Year / Semester

3
rd


Year / Fall
semester

Status

Compu
lsory

Department

Mechanical Engineering

Prerequisite / Recommended

None

Form of Teaching

Lectures (42hours)(3 hours per week.)

Lecturer

Atilla Bilgin

Co
-
lecturer


Language of instruction

Turkish


Objectives of the Course

Acquiring a basic knowledge
of the fundamentals of numerical solutions for engineering
problems, and t
o improve their computer skill.



Contents of the Course

Concept of mathematical modeling.

Approximations and errors.

Roots of equations.

Systems of linear algebraic equations.

Curve fitting.

Numerical differentiation and integration.

Numerical solutions of the ordinary differential