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ÜNiVERSiTE DERSLERi

Lisans ve Yüksek Lisans egitimi almakta olan ögrencilerimize sağladığımız hizmetleri 4 ana kategoride toplayabiliriz. Daha ayrıntılı bilgi alabilmek ve her bireye özel çalışma sistemimizi daha yakından tanımak için lütfen bizimle iletişime geçiniz.

1-Midterm ve Finallere Hazırlık

2-Proficiency, TOEFL sınavları

3-Proje, ödev ve tez danışmanlığı

4-Kariyer başlangıç koçluğu

VERİLEBİLECEK DERSLER:
(Ayrintilar için derslerin üzerine tiklayabilirsiniz.)

ENGLISH

For proficiency or TOEFL exams. Grammer, Writing, Listening, Reading And also english for prep students

CALCULUS

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,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.

LINEAR ALGEBRA

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

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

PROBABILITY AND STATISTICS:

Sets and counting, probability and relative frequency, conditional probability, Bayes theorem, independence, discrete and continuous random variables, binomial, Poisson and normal distributions, functions of random variables, law of large numbers, generating functions, characteristic functions, moments, compound distributions, central limit theorems, Markov chains and their limiting probabilities

GENERAL PHYSICS:

Vectors, kinematics, Newton's laws of motion, work and energy, conservation of energy, linear momentum and its conservation, rotation of rigid bodies about a fixed axis, angular momentum and its conservation Equilibrium of rigid bodies, oscillations, gravitation, fluid statics and dynamics, waves in elastic media, introduction to thermodynamics and kinetic theory, sound,Thermodynamics, Waves, Optics and Modern Physics 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 .

CLASSICAL MECHANICS:

Review of basic mathematical tools used in mechanics. Dynamics of particles and systems of particles, motion under a central force, conservation of energy and momentum, dynamics of rigid body motion. Introduction to the mechanics of continua. Relativistic dynamics.Review of conservation principles, oscillations in one dimension, damped forced oscillations, non-linear oscillations and introduction to classical perturbation theory. Oscillations in more than one dimension: coupled oscillations, normal modes and coordinates. Introduction to analytical mechanics. Lagrange and Hamilton's equations, conservation principles. Small oscillations, selected applications. Canonical transformations.

ADVENCED QUANTUM PHYSICS:

A survey of applications include the structure of atoms, molecules and nuclei, radioactivity and nuclear reactions, elementary particles, solid-state physics, astrophysics and cosmology.Fundamental concepts of relativity and quantum physics and their applications to the structures of single and multielectron atoms. Introduction to mathematical foundations of quantum physics. Emphasis on understanding quantal phenomena order of magnitude estimates involving applications of relativity and quantum physics to molecules, nuclei, radioactivity and nuclear reactions, elemetary particles, condensed matter physics, astrophysics and cosmology.

ELECTRONICS FOR PHYSICISTS:

A treatment of the fundamental concepts of electronic circuits and circuit components to provide an adequate understanding of electronic techniques used in modern instrumentation and experimental physics: diode and transistor characteristics, transistor biasing and thermal stabilization. Small and large signal low frequency transistor models transistor amplifier circuits, field-effect transistors. Integrated circuits-operational amplifiers, feedback amplifiers and oscillators. Impedance matching. Large signal amplifiers, rectifiers and filters

FUNDAMENTALS OF ELECTROMAGNETISM:

Review of Maxwell's equations, and derivation of their differential form. Importance of continuity equation and displacement current. Derivation of EM wave equation in vacuum, simple solutions and their basic properties, including Poynting's vector etc. Interaction f radiation with matter, physical basis of the index of refraction. Boundary conditions and simple discussion of reflection and refraction of EM waves from conductors and insulators Vector analysis, solution of electrostatic problems: Poissons's and Laplace's equations, method of images. Electrostatics in dielectric media, electrostatic energy. Electric current, magnetic field of steady current, electromagnetic induction, magnetic properties of matter, magnetic energy.

CLASSICAL ASTRONOMY:

Motion of the sun, moon, planets and stars as observed by the naked eye, celestial mapping and time-keeping; Kepler's laws of planetary motion planetary physics, stellar parallax and stellar aberration, the Doppler effect, variable stars, the measuement of stellar distances, the proper motion of stars, star clusters and galaxies; gaseous nebulae and planetary nebulae; the Hertzsprung-Russell diagram and stellar evolution, red giants and white dwrarfs; novae and supernovae, pulsars and x-ray sources, neutron stars and black holes, the Big-Bang theory and the expanding universe. Cosmological questions.

QUANTUM MECHANICS:

CHEMISTRY

ELECTRONIC ENGINEERING

COMPUTER ENGINEERING

CIVIL ENGINEERING

MECHANICAL ENGINEERING

AND MORE...