Course Contents

ATA 101 Principles of Atatürk and History of Turkish Revolution I

This course will cover the topics of; The concept of revolution, the factors leading to Turkish revolution and the reasons of the collapse of the Ottoman Empire, Ottoman Empire in the rescue efforts, flows of ideas, World War I, Mustafa Kemal Anatolian transition and congresses, Turkey opening of the Grand National Assembly, the liberation war, foreign policy, Mudanya cease-fire, the Lausanne conference.

CENG 109 Programming and Computation I

This course provides an introduction to mathematical modeling of computational problems. It covers the common algorithms, algorithmic paradigms, and data structures used to solve these problems. The course emphasizes the relationship between algorithms and programming and introduces basic performance measures and analysis techniques for these problems. Typed functions, conditional expressions, and repetition (recursion) are introduced alongside as the basic methods to operate on this structured data.

CHEM 101 Engineering Chemistry I

Introduction to atomic and electronic structure, chemical bonding, molecular structure and bonding theories, properties of liquids, solids and solutions, chemical equilibrium, kinetics, thermodynamics, metal complexes, organic compounds and nuclear chemistry.

ENG 101 Academic English I

This course is an integrated skills-based course in the four language skills (reading, writing, listening and speaking) along with the grammar and vocabulary knowledge. With its engaging content and systematic skills work, students will be able to express their ideas and develop their communicative abilities. It also includes a strong focus on study skills encouraging independent learning.

EPR 121 Entrepreneurship Project I

To become entrepreneurs and project makers, our students receive information such as establishment and management of business, business accounting, business start-up and incentives, R & D and design center activities, project supports. By collaborating with students who choose similar projects from other programs, they start their experience of forming a team and doing business together.

IUL 151 Introduction to University Life

It is a program that aims to adapt to the new environment of the university in a pleasant way, consisting of various activities that will be offered in addition to academic studies, in order for our students to adapt to university life. These activities will support students as an active individual with programs that can help students to achieve their goals and contribute to their personal development. The program, which is focused on socio-cultural activities, aims to create an awareness about intellectual curiosity, cultural sensitivity and taking responsibility, by giving you a weekly break, and to improve students’ vision as well as to educate them as a beneficial individual to the society and the world.

MATH 101 Engineering Mathematics I

Functions, limits, continuity, differentiation and applications, integration, fundamental theorem of calculus, techniques and applications of integration, improper integrals and series, Taylor polynomials, power series, basic transcendental functions.

PHYS 101 Engineering Physics I

Vectors, translational kinematics and dynamics work and energy, system of particles, rotational kinematics and dynamics, equilibrium, gravitation oscillations, waves, fluid mechanics, statistical mechanics, heat and thermodynamics. (One laboratory session every week.)

TUR 101 Turkish I

Definition of the language, social value of language; Characteristics of written and oral expression; Sentence knowledge; Speech disorders; written and oral expression; Effective reading and text analysis will be included during this course.

MATH 102 Engineering Mathematics II

Vector calculus, functions of several variables, directional derivatives, gradient, Lagrange multipliers, multiple integrals and applications, change of variables, coordinate systems, line integrals, Green's theorem and its applications.

PHYS 102 Engineering Physics II

Charge and matter, the electric field, Gauss law, electrostatic potential, capacitance, current and resistance, electromotive force and circuits, the magnetic field, Ampére's law, Faraday's law, inductance, magnetic properties of matter. (One laboratory session every week.)

MEC 104 Computer Aided Engineering Drawing

Introduction to CAD and 2D drawing techniques, 2D drawing techniques, Hand sketching techniques, Orthographic projection, 3D solid modeling (extrude, cut, drill, revolve, loft, inclined and oblique surfaces, holes, edit, unite), Layout generation and auxiliary views, Principles of sectioning (full, half, broken-out, rotated, ribs, webs, alignment), Dimensioning, GD&T (geometric dimensioning and tolerancing), Assembly and machine elements (bolts, nuts, other threaded elements, gears, cams, locking devices), Assemblies and working drawings, Surface developments.

ENG 102 Academic English II

IUL 152 Building the Future

This course, which is the continuation of the Introduction to University Life Course, aims to raise the competence of the student in subjects such as career planning, interview processes, image and communication and to train highly qualified people. In addition, the course aims to provide students with the knowledge of science, technique, industry, creative thinking, developments in R & D, rational and critical thinking, reasoning ability, generating rational solutions and evaluating future business opportunities through various seminars. This course contributes to the development of the basic sciences in our country, giving students the opportunity to make applied research, renewing the existing knowledge and ideas, enriching and educating the elements needed by the profession branches.

WED 128 Workplace Education

Students make observations and experience in the workplace one day of the week. Students take this course in business environment. The tasks and activities of the vocational candidates in this course should provide them with the opportunity to observe experienced superiors and workplace trainers on-the-job, to work individually with the students, even if they are limited. The activities carried out in the workplace experience course will provide candidates with various skills that will enable them to become an experienced employee. The students' progress in understanding the future profession and gaining the competencies constituting the profession will be evaluated by the university instructors who are in close cooperation with them and the application trainers and mentors who have gained experience in their work.

EPR 122 Entrepreneurship Project II

TUR 102 Turkish II

This course will cover the topics of; Turkish suffixes; Turkish suffixes; Word types. Sentence knowledge; Reading and examining selected texts.

ATA 102 Principles of Atatürk and History of Turkish Revolution II

This course will cover the topics of; The proclamation of the Republic and political, social and cultural reforms. Problems that Lausanne Peace Treaty could not be solved and their conclusions movements against the new order. Multiparty life experiments and results. Turkish Foreign Policy in the period of Atatürk. İnönü Period and the Second World War years, Turkey's transition to multi-party life during and after the Democratic Party.

MATH 201 Linear Algebra

Matrix algebra, determinants, Gaussian elimination, Cramer's rule, inverses, systems of linear equations, rank, eigenvalues and eigenvectors, introduction to linear programming.

NE 201 Materials Science I

This course introduces the fundamental concepts of materials science, focusing on the relationships between the structure, properties, and performance of engineering materials. Topics include crystal structures, phase diagrams, material classifications, and basic mechanical properties.

MATH 202 Differential Equations

First-order differential equations, linear equations, homogeneous and non-homogeneous, series solutions, the Laplace transform, systems of first-order linear equations, boundary value problems, Fourier series.

NE 211 Introduction to Nanoscience and Nanotechnology

This course provides a foundational overview of nanoscience and nanotechnology, exploring the unique physical, chemical, and biological properties of materials at the nanoscale. It covers synthesis methods, characterization techniques, and potential applications in areas such as electronics, medicine, and energy.

NE 205 Fundamentals of Organic Chemistry

This course introduces the basic principles of organic chemistry, focusing on the structure, nomenclature, properties, and reactions of organic molecules. Emphasis is placed on reaction mechanisms, functional groups, and the relevance of organic compounds in biological and industrial contexts.

WAP 227 Workplace Application I

Within this course, students practice in the workplace one day of the week. Students apply this course in business environment. Candidates of the profession will have the opportunity to know the work environment and fully participate in what is happening at the workplace. The work to be carried out during the workplace application is planned according to the workplace before the beginning of the semester and by taking the opinions of the students and the application trainers who will guide them. Since each workplace's eco system will be different, the term plan is prepared after getting acquainted with the workplace's eco system, so that each student's weekly schedule may change.

NE 207 Nanophysics

This course explores the physical principles underlying nanoscale systems, including quantum mechanics, electron transport, and surface phenomena. It emphasizes how classical and quantum behaviors converge at the nanoscale, enabling novel applications in nanotechnology.

CHEM 102 Engineering Chemistry II

This course builds upon fundamental chemistry concepts with a focus on chemical kinetics, electrochemistry, polymer chemistry, and corrosion. Applications in engineering fields are highlighted through real-world examples and laboratory work.

NE 202 Materials Science II

A continuation of Materials Science I, this course delves deeper into material behavior, including mechanical testing, failure mechanisms, and advanced material processing techniques. Special attention is given to composites, ceramics, polymers, and nanomaterials.

MATH 204 Probability and Statistics

Introduction to probability theory. Random variables, expectation, variance and moment generating functions. Distributions: Bernoulli, binomial, uniform, Gaussian, exponential, Poisson, gamma. Introduction to statistical concepts. Sampling and sample statistics. Point and interval estimation. Hypothesis testing. Regression. Numerical and computational aspects of random variable generation, sampling, and estimation.

NE 204 Materials Thermodynamics

This course covers the thermodynamic principles applied to materials systems, including energy, entropy, phase equilibria, and chemical potentials. It provides the theoretical foundation for understanding phase transformations and material stability.

NE 212 Nanomaterials and Production Techniques

This course introduces various types of nanomaterials and the methods used for their synthesis, including top-down and bottom-up approaches. Emphasis is placed on the relationship between production techniques and resulting material properties.

NE 206 Mechanics of Materials

This course examines the behavior of solid materials under different types of loading, focusing on stress, strain, deformation, and failure. Topics include axial loading, torsion, bending, and material strength analysis.

WAP 228 Workplace Application II

LCE 301 Law Concepts for Engineers

NE 305 Phase Equilibria & Diagrams

This course explores the thermodynamic principles and graphical tools used to describe phase relationships in materials. Students learn to interpret phase diagrams and predict phase transformations in binary and multicomponent systems.

MATH 301 Numerical Methods and Scientific Computation

Data structures, structured programming. Numerical solution of multidimensional optimization problems, convergence properties, gradient and Newton methods. Solution of linear, nonlinear equations, and differential equations, numerical integration.

NE 311 Nanoscale Characterization Techniques

This course covers advanced techniques for characterizing materials at the nanoscale, such as scanning electron microscopy (SEM), transmission electron microscopy (TEM), atomic force microscopy (AFM), and spectroscopy methods. Emphasis is placed on understanding resolution limits and data interpretation.

NE 303 Solid State Physics

This course focuses on the physical properties of solid materials, including crystal structures, band theory, electrical and thermal conductivity, and magnetic properties. It lays the groundwork for understanding semiconductors and other functional materials.

ELEC 1 Technical Elective Course I

WAP 327 Workplace Application III

NE 306 Composite and Nanocomposite Materials

This course introduces the structure, properties, and processing of composite and nanocomposite materials. Topics include reinforcement mechanisms, matrix materials, interface behavior, and applications in aerospace, automotive, and biomedical fields.

NE 312 Simulation and Modeling of Materials

This course introduces computational methods for simulating the behavior and properties of materials, including molecular dynamics, finite element analysis, and density functional theory. It emphasizes how modeling can predict material performance and support materials design.

NE 314 Nanoscale Transport Phenomena

This course examines heat, mass, and charge transport at the nanoscale, where classical transport theories intersect with quantum effects. Applications in nanoelectronics, nanofluidics, and energy systems are explored.

ELEC 2 Technical Elective Course II

Technical Elective Courses allow students to deepen their knowledge in specialized areas of nanotechnology and related fields. These courses provide opportunities to explore advanced topics such as nanoelectronics, biomaterials, computational modeling, and energy materials. By selecting electives, students can tailor their education to match their interests and career goals, gaining both theoretical insight and practical skills. The elective courses also promote interdisciplinary learning, innovation, and industry readiness.

ELEC 3 Technical Elective Course III

Technical Elective Courses allow students to deepen their knowledge in specialized areas of nanotechnology and related fields. These courses provide opportunities to explore advanced topics such as nanoelectronics, biomaterials, computational modeling, and energy materials. By selecting electives, students can tailor their education to match their interests and career goals, gaining both theoretical insight and practical skills. The elective courses also promote interdisciplinary learning, innovation, and industry readiness.

NTE 1 Non- Technical Elective Course

WEX 328 Workplace Experience I

NE 421 Graduation Project I

This course involves the development of a research proposal and the initiation of an independent project on a nanotechnology-related topic under faculty supervision. Students focus on literature review, project planning, and initial experimental or theoretical work.

NE 413 Nano System Design

This course focuses on the design and integration of nanoscale components into functional systems. Topics include nanoelectronics, nanomechanical systems, and the use of CAD tools for designing and simulating nanosystems.

NE 415 Industrial Applications of Nanotechnology

This course explores how nanotechnology is applied across various industries, including electronics, energy, medicine, and materials manufacturing. Case studies highlight real-world innovations and challenges in commercializing nanotech products.

ELEC 4 Technical Elective Course IV

ELEC 5 Technical Elective Course V

ELEC 6 Technical Elective Course VI

WEX 427 Workplace Experience II

NE 422 Graduation Project II

A continuation of Graduation Project I, this course focuses on the execution, completion, and presentation of the student's independent research. Students are expected to analyze results, draw conclusions, and prepare a final report and/or presentation.

WEX 428 Workplace Experience III

In the last semester of the program, all of the students will carry out practical training in a factory / production unit located in all provinces of Ankara or in Ankara in accordance with the predefined principles and principles that OSTIM Technical University deems appropriate. In addition, internship / on-the-job training will be carried out in a factory / production unit located in Ankara within the framework of the cooperation protocol between the OSTİM Technical University and the OSTİM Clusters within the framework of the development and cooperation. During this internship / on-the-job training, students will simultaneously take the “Project Management” course as internship / on-the-job training course. In this course, each student will be able to jointly identify the problem areas related to the Design, Production, Installation and Maintenance of various systems in the areas encountered in the factory / production unit where he / she is doing internship / on-the-job training, and jointly identify with the company the new generation creative solution proposals and will create a project idea, design it, develop it and reflect it on the field of application. This project will be evaluated in the performance of internship / on the job training.