Course Contents

OSMANIYE KORKUT ATA UNIVERSITY

FACULTY OF ARTS AND SCIENCES

PHYSICS DEPARTMENT

CONTENT OF UNDERGRADUATE PROGRAM COURSES

1. YEAR I. SEMESTER

FZK 101 Physics I (4 2 5) ECTS: 7

Vectors; particle kinematics and dynamics; frameworks with and without action; Linear Motion; Motion in Plane, Newton's Laws; Applications of Newton's Laws; Work and Kinetic Energy; Potential Energy and Conservation of Energy; Momentum Collision and Center of Mass; Solid Rotational Motion of Objects; Angular Momentum and Torque; Gravity centrifugal forces move under; Oscillations.

FZK 103 Physics Lab. I (0 2 1) ECTS: 2

Kinematics, Newton's second law, force and gravity, conservation of momentum, kinetic energy, mechanical, conservation of energy experiments.

FZK 105 Analysis I (4 0 4) ECTS: 6

Functions. Limit concept and theorems. Continuity. Derivative and derivative rules. Derivatives applications. Exponential, logarithmic, trigonometric and hyperbolic functions, inverse hyperbolic functions. Maximum-minimum problems, relative speed. Polar coordinates are also graphed Drawings, area and volume calculations in polar coordinates. Series. Series. Series and series tests, power series.

FZK 107 Chemistry I (3 2 4) ECTS: 5

Chemical Bonding II (Bond Theories); Liquids Solids and Intermolecular Forces; Solutions and Physical characteristics. Chemical Kinetics; Principles of Chemical Equilibrium; Acids Bases; Acid Base Equilibrium; Solubility and Complex-Ion Equilibria; Voluntary Change; Electrochemistry; Complex Ion and Coordination Compounds; Nuclear Chemistry; Organic chemistry.

BT 103 Basic Information Technologies (2 2 3) ECTS: 4

Basic terms and concepts; Introduction to Operating Systems (Windows); Word Processors (Word); Data and Graphic Processing (Excel); Presentation Preparation (Power Point).

YD 103 English I (2 0 2) ECTS: 2

Sentence structures, tenses, definite and unspecified noun phrases, countable and uncountable nouns, undocumented pronouns, imperative sentences, straight, question and negative sentence structures auxiliary verbs, adjective clauses, equality and superiority in adjectives, imperative sentences.

AI 103 Principles of Atatürk and History of Turkish Revolution I (2 0 2) ECTS: 2

Modernization movements in the Ottoman Empire in the late 19th century and the 20^th century. The general situation of the Ottoman Empire in the beginning. Tripoli and Balkan wars. I. World War. Overview of World War I, Ottoman Empire in the war. Mondros Armistice Treaty, preparation period of the War of Independence. Amasya Circular, Sivas Congress, Erzurum Congress. Declaration of Ankara as the capital and establishment of the Turkish Grand National Assembly in Ankara. Internal rebellions and suppression of these rebellions.

TD 103 Turkish Language I (2 0 2) ECTS: 2

What is tongue? The place and importance of language in the life of the nation as a social institution. Language culture relation. The position of Turkish language among the world languages ​​and their spread areas. The sound of Turkish properties and rules related to voice information. Syllable, spelling rules and application, punctuation signs and application.

1. YEAR II. SEMESTER

FZK 102 Physics II (4 2 5) ECTS: 7

Electric Load; Coulomb's Law, Electric Field; Gauss's Law; Electrical Potential; Capacitor and Dielectric; electrical energy, current and resistance, DC circuits, magnetic field, Biot Savart and Ampere's laws, Faraday's law, inductance, magnetic fields in matter, electromagnetic fields, electromagnetic oscillations and AC circuits, Maxwell's equations electromagnetic waves.

FZK 104 Physics Lab. II (0 2 1) ECTS: 2

Ohm's law, series and parallel resistance circuits, capacitors filling and discharging potential and electric field lines, DC ammeter and DC using galvanometer voltmeter design.

FZK 106 Analysis II (4-0-4) ECTS: 6

Indefinite integral, rules and methods of integration. Definite integral and its properties. Libby integrals. Applications of definite integral, area of ​​plane regions. Volume calculations, spring length, surface area of ​​rotating bodies, center of gravity of plane regions. Multivariate functions and partial derivatives, gradient, tangent and normal planes. Two variables maximum and minimum problems. Max and min. problem solving. Very multiple integrals. Mass and center of mass calculations in two and three dimensions. Cylindrical and spherical  dimensional integration in coordinates.

FZK 108 Chemistry II (3-2-4) ECTS: 5

Properties and Measurement of Matter; Atoms And Atomic Theory; Chemical Compounds; Chemical Reactions; Introduction to Aqueous Solution Reactions; Gases; Thermochemistry; Atmospheric Gases And Hydrogen; Electron Structure of Atom; Periodic Table and Some Atom Properties; Chemical Bonding I (Basic concepts).

BT 104 Basic Information Technologies (2 2 3) ECTS: 4

Data Communication and Using Information Networks; Introduction to the Internet; Email, Discussion Groups, Forums; FTP; Web and Information Browsing Systems; Dissemination of Information on the Internet, Introduction to HTML, on the Web publishing.

YD 104 English II (2 0 2) ECTS: 2

Subject pronouns, property adjectives, nouns and plural structures, adjectives and some adverbs. Broad time, about being positive, negative question structures of this time. Conjunctions, pronouns, adverbs and noun adverbs, noun verbs and object pronouns. “Can and use with examples. Modules and their use.

I 104 Atatürk's Principles and History of Turkish Revolution I (2 0 2) ECTS: 2

Paris Peace Conference. Occupation of Izmir. The internal situation of the country and minorities. Cerkez Ethem Incident. I. and II. İnönü Battles. Sakarya Square War and its results. Kars and Ankara Treaties. Major assault. Mudanya Armistice Agreement, principles and importance. Lausanne Conference and its importance. Turkish Revolution; political, legal, social, cultural, education revolutions Transition to multi-party system. Economic developments. Turkish exterior policy. The Armenian question. II. World War II and Turkey.

TD 104 Turkish Language II (2 0 2) ECTS: 2

Turkish suffixes and application. Rules about composition, writing composition plan and application to be used. Noun and verb conjugation in Turkish. Expression in composition shapes and their application. The usage of adverbs and prepositions in Turkish.

2. YEAR III. SEMESTER

FZK 211 Physics Laboratory III (Thermodynamics) (0 2 1) ECTS: 3

Experimental verification of ideal gas and ideal gas laws; mechanical equivalent of heat, temperature measurement with thermistor; electrical equivalent of heat, efficiency; thermal conductivity; heat capacity; thermal expansion; heat-electric inverter.

FZK 201 Statistical Physics and Thermodynamics (4 2 5) ECTS: 6

Thermodynamic systems, temperature, heat, work, thermodynamic equilibrium, first law of thermodynamics, internal energy, heat capacity and measurement, heat transfer, thermal conductivity and measurement, convection, thermal radiation, black body, Stefan-Boltzmann law, ideal gases, thermodynamics II. law, work and heat transformations, heat machines, Carnot cycle, entropy, thermodynamics systems. Probability and probability theorems, addition of probabilities, probabilities multiplying; micro and macro systems, thermodynamics and statistical physics; man walking at random problem, Binomial, Gauss and Poisson distributions, mean calculations, mean, standard deflection; ideal gas, Maxwell distribution; statistical definition of particle systems, microscopic theory and measurements, input states, state density, thermal interaction, entropy.

FZK 203 Differential Equations in Physics I (4 0 4) ECTS: 6

Introduction to differential equations, Existence and uniqueness theorem. Exact differential equations, integration factor, separable equations, homogeneous equations, first order linear differential equations, Bernoulli equation, some of first order differential equations applications. Two and higher order differential equations, Linear Independence, Differential operators and operator methods, constant homogeneous differential coefficients equations, order reduction in homogeneous equations, Applications. Non-uniform Differential equations, method of indefinite coefficients, method of variation of coefficients, Euler equation, order reduction in non-homogeneous differential equations, Applications. Two series solutions of higher order differential equations, series solutions, Hermite, Legendre, Airy equations, Series solutions around singular points-Frobenius method-, Bessel functions. Laplace transform and solution of differential equations with Laplace transform. Introduction to partial differential equations.

FZK 205 Mathematical Methods in Physics I (4 0 4) ECTS: 6

Vector Analysis, Differential Vector Operators (Gradient, Laplacian, Divergence, Rotational), Integral Theorems: Curvilinear Integral, Green's Theorem in Plane, Divergence Theorem, Stokes Theorem, Linear Vector Space, Linear Operators, Finite Dimensional Vector Spaces, Matrix Determinant, Coordinate Transformations, Similarity Transformations, Orthogonal Transformations, Modular Transformations, Eigenvalues ​​and Eigenvectors of a Matrix, Eigenvalues ​​of a Hermitic Matrix Problem, Diagonalization of Matrices, Systems of Linear Equations, Homogeneous Equations System, Linear Differential Equation Systems, Fourier and Laplace Transforms.

FZK 207 Computer Programming Language I (2 2 3) ECTS: 4

In this course, a programming language will be determined according to the needs of the program It will be taught. Programming language, Pascal, Visual C ++, Delphi, Visual Basic, Visual Fortran, Java, It can be either J ++ or C. Data types, variables, constants, arithmetic and logical expressions; Flow charts; Coding systems; I / O statements; Flow control statements. Cycles, conditions; Functions and subroutines; Classes, objects; Sorting and searching algorithms; Creating user interfaces; File and database operations; Error Management; Communication between program modules.

FZK 209 Professional English I (3 0 3) ECTS: 5

Explanation of physical expressions and concepts in English and physical articles in English

and Turkish translation

2. YEAR IV. SEMESTER

FZK 212 Physics Laboratory IV (Waves and Optics) (0 2 1) ECTS: 4

Waveform measurements, linear sum and pulse of two waves, for waves of the same frequency Lissajous curves, Lissajous curves for different frequency waves. LRC circuits and oscillations. Microwave experiment I, microwave experiment II. Introduction to beam optics, law of refraction, convergent lens– image and body relations. Image formation in spherical mirrorsu, spherical lenses – spherical deviation and chromatic aberration, aperture size, image depth, polarization of light. Diffraction and interference, measuring the speed of light with fiber optic cable.

FZK 202 Waves and Optics (4 0 4) ECTS: 6

Wave Motion, Linear Wave Equation, Sound Waves, Spherical and Plane Waves, Doppler Event, Overlapping and Stable Waves, Resonance, Strokes, Complex Waves, Nature of Light and Geometric Optics Laws, Reflection and Refraction, Distribution and Prisms, Full Reflection, Fermat Principle, Mirrors, Lenses, Interference of Light Waves, Diffraction and Polarization, Polarization.

FZK 206 Mathematical Methods in Physics II (4 0 4) ECTS: 6

Complex Numbers. Equivalence of complex numbers, polar and Euler (exponential) of complex numbers representation of complex numbers n. degree of strength and root. Basic of Complex Numbers Functions. Analytic functions, Cauchy-Rieman equations, harmonic functions. Analytic Functions with Complex Variables. Integrals in Complex Plane and their properties, derivatives of analytic functions, Cauchy integral formulas. Series of complex functions expansion: Taylor and Laurent series. Residue theorem, Residue calculation techniques, Residue Real integral calculation by method.

FZK 210 Professional English II (3 0 3) ECTS: 4

Explanation of physical expressions and concepts in English and physical articles in English and Turkish translation.

FZK 208 Computer Programming Language II (2 2 3) ECTS: 4

In this course, a programming language will be determined according to the needs of the program it will be taught. Programming language, Pascal, Visual C ++, Delphi, Visual Basic, Visual  Fortran, Java. It can be either J ++ or C. Data types, variables, constants, arithmetic and logical expressions; Flow charts; Coding systems; I / O statements; Flow control statements: Cycles, conditions; Functions and subroutines; Classes, objects; Sorting and searching algorithms; Creating user interfaces; File and database operations; Error Management; Communication between program modules.

3. YEAR V. SEMESTER

FZK 301 Modern Physics I (4 0 4) ECTS: 6

Special relativity: Special relativity, time dilation, Doppler event, length growth, electricity and relativity of magnetic fields, mass and energy, massless particles, general relativity. Particle properties of waves: Blackbody radiation, photoelectric effect, Compton event, x rays, couple formation, photons and mass gravity. Wave properties of particles De Broglie waves, phase and group speeds, Heisenberg uncertainty principle and its applications. The structure of the atom Bohr atom, Energy levels and spectra. Quantum mechanics Schrödinger equation,  expected values, finite potential well, tunnel event, harmonic oscillator.

FZK 307 Basic Electronics (4 0 4) ECTS: 5

Voltage, current and resistance, signals, inductances and AC circuits, impedance and reactance, diode circuits, transistors and amplifier circuits, feedback and operational amplifiers, active filters and oscillators, power supply circuits and voltage regulators.

FZK 305 Electromagnetic Theory (5 0 5) ECTS: 6

Stationary electricity; Electric Field, Electric Flux and Gauss's Law, Static Electric Fields Divergence and Rotation, Electric Potential, Work and Energy in Static Electricity, Conductors. Special Techniques; Laplace Equation, Image Method, Separation of Variables, dipole and multiple Polar expansion. Electric Field in Matter; Polarization, Field of a Polarized Body, Electricity Displacement, Dielectrics in electric field, Linear Behavior Dielectrics. Boundary value problems in electrostatic, Laplace and Poission equations. Electrostatic energy. Steady currents, continuity equation, microscopic theorem of conduction. Magnetostatic, Lorentz Force Law, Biot-Savart Law, Divergence and Rotation of Magnetic Field, Magnetic Vector Potential. Magnetostatic in material environments; magnetization current, boundary conditions for B and H. Time-varying fields, Induction and Faraday's Law, Maxwell Equations, plane waves, electromagnetic energy and poynting theorem.

FZK 321 Basic Electronics Laboratory (0 2 1) ECTS: 3

Voltage, current and resistance, signals, inductances and AC circuits, impedance and reactance, diode circuits, transistors and amplifier circuits, feedback and operational amplifiers, active Analog electronics such as filters and oscillators, power supply circuits and voltage regulators experiments including.

3. YEAR VI. SEMESTER

FZK 302 Modern Physics II (4 0 4) ECTS: 6

Single electron atoms, magnetic dipole moment, spin and transition rates, multi electron atoms, molecules, basic states and x-ray excitations, quantum statistics, nucleus structure, Physics particle physics.

FZK 306 Theoretical Mechanics (4 2 5) ECTS: 6

Matrices, vectors and vector analysis. Newtonian mechanics-single particle, particle in one dimension motion, reference frames, conservation theorems. Oscillations, Simple harmonic oscillator, damped oscillations, physical drive forces. Nonlinear oscillations. Mass shooting, mass attraction potential. Some methods in variation analysis: Euler equation and its second form, Euler's equation in the presence of auxiliary conditions. Hamilton's principle-Lagrange and Hamilton's dynamics, expanded coordinates, Lagrange equations of motion, indefinite multipliers, Hamilton dynamics. Central force motion, reduced mass, centrifugal motion and effective potential. Dynamics of particle system, center of mass, flexible and flexible of two particles non - scattering, Rutherford scattering. Act in the frame of action reference, Coriolis forces. Dynamics of solid objects. Special relativity theory.

FZK 322 Quantum Laboratory (0 2 1) ECTS: 6

Atomic diffusion, photoelectric event, atomic absorption, photoconductivity, thermoionic electron diffusion, thermoelectric event, photon noise, Frank Hertz Experiment, e / m Experiment, Compton Event, Oil Drop Test, deflection of electrons in magnetic field.

4. YEAR VII. SEMESTER

FZK 401 Quantum Mechanics I (3 0 3) ECTS: 5

Introduction to Schrödinger equation Wave packet motion as eigenvalue-eigenfunction equation Schrödinger equation, solution of Schgödinger equation in one dimension. Quantum Mechanical One dimensional harmonic oscillator, angular mamentum, motion in centripetal potential. Hydrogen atom, electrons in the electromagnetic field. Spin and matrices for stationary states approximation methods. Time-dependent perturbation theory and atomic radiation and scattering applications.

FZK 403 Nuclear Physics I (3 0 3) ECTS: 5

Basic Nuclear Structure, Nuclear Properties, Units and Dimensions, Elements of Quantum Mechanics, Nuclear Radius, Mass and Abundance of Nuclei, Nuclear Binding Energy, Fundamental of Deuteron State, Nucleon-Nucleon Scattering, Inter-Nuclear Forces, Nuclear Models, Radioactive Decay Law. Natural Radioactivity, Radiation Measurement Units, Radiation Interaction with Matter, Measurements of Nuclear Radiation. New & Used Counters & Detectors, Alpha Degradation, Beta Degradation, Gamma Degradation.

FZK 405 Solid State Physics I (3 0 3) ECTS: 5

Crystal structure of solids, crystal diffraction and counter weave, crystal defects, between atoms bonding types, dynamics of crystal lattices, thermal properties of crystal lattices, in crystals free electrons.

4. YEAR VIII. SEMESTER

FZK 402 Research Project I (0 2 1) ECTS: 6

Görüntülenme Sayısı: 537