Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
PHYSICS 3 Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings FALL QUANTUM PHYSICS FİZ-301 6 6 hours/week Professor Osman ADIGÜZEL 3rd / Fall Compulsory Introduction, Physical Quantities in Quantum Scale, Energy Levels, Photons, Material Particles, Uncertainty Principle, Schrödinger’s Wave Equation, Theory of Steady States and Steady Energy Levels To introduce the microscopic systems and the basic quantum concepts. One written midterm exam (40%) and one written final exam (60%) Turkish E.H.Wichmann, Quantum Physics, Berkeley Physics Course, Volume 4, and M.A.Morrison, Understanding Quantum Physics, Prentice–Hall International, Inc . CIRCUIT ANALYSIS FİZ-305 5 4 hours/week Associate Professor Yıldırım AYDOĞDU 3rd / Fall Compulsory System of units, Circuit Elements, Ohm’s Law, Kirchhoff’s Laws, SingleLoop Circuit, Single-Node-Pair Circuits, Wye-Delta Transformations, Circuits with Dependent Sources, dc Measurements, Nodal Analysis, loop Analysis, Thevenin’s and Norton’s Theorems Provides science students with a basic knowledge of circuits, giving them an understanding of electrical circuit elements. One written midterm exam (40%) and one written final exam (60%) Turkish Basic Engineering Circuit Analysis, author: J. David Irwin Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings THERMODYNAMICS FİZ-303 5 5 hours/week Associate Professor Ayşe AYDOĞDU 3rd / Fall Compulsory Basic Concepts of Thermodynamics, Thermodynamics and Energy, A Note on Dimensions and Units, Closed and Open Systems, Properties of a System, State and Equilibrium, Forms of Energy, Temperature and the Zeroth Law of Thermodynamics, Pressure, Thermic(Thermal) Expansion, Heat and Calorimetry, Ideal Gases and Gas Laws, Real gases and The Condition Equations of Real Gas,. The Laws of Thermodynamics, The First Law of Thermodynamics, The Second Law of Thermodynamics, Entropy. To inform the students about the basic concepts of thermodynamics and to provide them a basic knowledge about these subjects. One written midterm exam (40%) and one written final exam (60%) Turkish Thermodynamics, An Engineering Approach, Fourth Edition Yunus A. Çengel & Michael A. Boles RELATIVISTIC MECHANICS FİZ-315 5 2 hours/week Associate Professor Ayşe AYDOĞDU 3rd / Fall Elective Basic Concepts, Observation Systems, The Transformations of Galileo, The Conservation of Linear and Angular Momentum, The Velocity of Light Giving information about the angular momentum,velocity of light and transformations to students. One written midterm exam (40%) and one written final exam (60%) Turkish Relativistic mechanics; special relativity and classical particle dynamics [by] R.D. Sard Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings PHYSICS LABORATORY-IV FİZ-351 5 6 hours/week Professor Fahrettin ĞÖGTAŞ 3rd / Fall Compulsory Reflection, Refraction, Lenses, The Faults of Lenses,Difraction and Interference, Polarization, Photometric Mesurements, Measurement of The Velocity of The Light The aim of this module is to demostrate the basic applications of the concept and prenciples of Optics. One written midterm exam (40%) and one written final exam (60%) Turkish Handouts THE HISTORY OF PHYSICS FİZ-309 5 2 hours/week Professor Mahmut DOĞRU 3rd / Fall Elective Introduction, The History of Science Physics: B.C. , Development In D.C., Some Fundamental Concept To give the historical developments of the physics and to explain the philosophical base of some concept in physics. One written midterm exam (40%) and one written final exam (60%) Turkish Introduction to Modern Physics, F.K. Richtmyer, et al., Matbaa Teknisyenleri Basımevi, 1965 (in Turkish) The science History, C. Yıldırım, Remzi Kitapevi, 1997 (in Turkish) The science History, S. Tekeli, E. Kahya, Remzi Kitapevi, 1997 (in Turkish) The Formation of Modern Physics, R.S. Westfall, I.H Duru (Trans.), Tubitak, 1997 (in Turkish). History of Physics, S.R Weart and M. Mhilips (eds.), AIP, 1985 PHYSICS 3 Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings SPRING SPECTROSCOPY IN PHYSICS FİZ-312 5 2 hours/week Assistant Professor Sinan AKPINAR 3rd / Spring Elective Introduction to physics, Vibrational spectroscopy:diatomics, Pure rotational spectroscopy, Rotational spectroscopy of non-linear polyatomics, Vibrational spectroscopy of polyatomics, moleculrs, Electronic spectroscopy The aim of this lecture is to provide the basic concepts and principles of spectroscopy in physics. One written midterm exam (40%) and one written final exam (60%) Turkish Fundamentals of molecular spectroscopy, Walter S. Struve Physical chemistry, P.W. Atkins STATISTICAL PHYSICS FİZ-302 7 6 hours/week Professor Osman ADIGÜZEL 3rd / Spring Compulsory Macroscopic Systems and Basic Properties, Basic Probability Concepts, Statistical Description of Particle Systems, Thermal Interactions, Microscopic Theory and Macroscopic Measurements, Canonical Distribution in Classical Approximation To introduce the physical properties of macroscopic systems, the basic statistical concepts and applications to ideal systems. One written midterm exam (40%) and one written final exam (60%) Turkish F.Reif, Statistical Physics, Berkeley Physics series, Volume 5, and F.Mandl, Statistical Physics, The Manchester Physics Series. Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings ATOMIC AND MOLECULAR PHYSICS FİZ 306 7 5 hours/week Professor Fahrettin GÖGTAŞ 3rd / Spring Compulsory Classical two body problem, Atomic models, The solution of Schrödinger equation for Hydrogen atom, Atomic orbitals, Fine and hyperfine structure in atomic spectroscopy, Spectroscopic notation and energy-level diagrams, Transition probability and selection rules, Zeeman effect, Stark effect, Hund rules, Molecular structure, Molecular rotational, vibrational and electronic transition spectra. The aim of this module is to provide explicitly the basic concepts and prenciples of atomic and molecular physics. One written midterm exam (40%) and one written final exam (60%) Turkish 1-Physics of Atoms and Molecules, B.H. Bransten et al, John Wiley & Sons, 1983, 2- Quantum Chemistry of Atoms and Molecules, P. S.C. Matthews, Cambridge University Press, 1989 ELECTRONICS FİZ-308 6 4 hours/week Associate Professor Yıldırım AYDOĞDU 3rd / Spring Compulsory DC Current Circuits, AC currents, Semiconducting materials. Diodes. Transistors and their applications. Integrated circuits. Noise, Atoms and bonding. Energy bands and effective mass. Carrier concentrations in semiconductors. Conduction in semiconductors. p-n junction. LED, photodetectors and solar cell. Bipolar transistor. Field-effect transistors. The semiconductor laser. Provides science students with a basic knowledge of electronics, giving them an understanding of electronic devices One written midterm exam (40%) and one written final exam (60%) Turkish Basic electronics for scientists. Author, James J. Brophy Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended Module Contents Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings PHYSICS LABORATORY-V FİZ-352 5 4 hours/week Assistant Professor Nevin Balo 3rd / Spring Experimental Heat Capacity, Thermoelectricity Transformer, Thermal Efficiency, The Determination of The Energy Levels of He by Electron Collosion Model, Thermal Radiation, The Determination of e/m, The Spectra of Atom, Viscosite, The Energy Stored in Capacitor One written midterm exam (40%) and one written final exam (60%) Turkish Handouts CELESTIAL MECHANICS FİZ-306 5 2 hours/week Assistant Professor Esat GÜZEL 3rd / Spring Elective Fundamental Dynamics, Rectilinear Motion, Central Force Motion, The Two-Body Motion, Computation of Orbits, The Three-and N-Body Problems, Theory of Perturbation, The Determination of Orbits The aim of this module is to provide the basic concept and principles celestial mechanics and to teach rectilinear motion, Central forces, The problem of two bodies and determination of orbits. One written midterm exam (40%) and one written final exam (60%) Turkish 1) Gök Bilim Dersleri I (Küresel Gökbilim), Abdullah Kızılırmak 2) Gök Bilim Dersleri II (Gök Mekaniği), Abdullah Kızılırmak 3) Introduction to Celestial Mechanics, by S.W. McCUSKEY 4) Introduction to Celestial Mechanics/2nd Revised Edition, by Forest Ray Moulton 5) Adventuresi n Celestial Mechanics, 2nd Edition, by Victor G. Szebehely, Hans Mark Module Code Number Number of ECTS Credits Hours / Week Module Lecturer Year / Term Type of Course (Compulsory / Elective) Prerequisites / Recommended WAVE OPTICS FİZ-316 5 2 hours/week Professor Mehmet CEYLAN 3rd / Spring Elective Module Contents Lights, Waves or Rays, Laws of Reflexsion, Laws of Refraction, Rays and Wavefronts, Electromagnetic Waves, Linear and Elliptical Polarization, Radiation from A Point Charge , Production of Polarized Transverse Waves, Brewster Window or A Laser, Properties of Retardation Plates, Interference and Diffraction, Characteristics of Laser Light, He-Ne Lasers, Diode Lasers and Their Uses, Holography Aims and Objectives of the module Method of assessment Teaching Language Textbook / recommended readings One written midterm exam (40%) and one written final exam (60%) Turkish