Found 133 courses
SUBJECT

COURSE LEVEL

INSTITUTION

COURSE TYPE
natural sciences subject

Physics (Mechanic - Elements of Heat)

APOSTOLOS PANTINAKIS - undergraduate - (A+)
School of Electronic and Computer Engineering, Technical University of Crete

Rectilinear motion , motion in the plane , vectors , laws of Newton, gravitational forces , gravitational acceleration determination by free fall , friction forces , determination coefficient of friction contact surfaces. Momentum , conservation of momentum , center of mass .Kinetic and potential energy, energy conservation law , work, power , conservative forces , relationship between force and dynamics energy . Rotational point and body angular acceleration determination , moment of inertia and friction torque smoothly rotating solid, overall mechanical condition of equilibrium . Angular point and solid conservation law angular momentum , precession. Simple harmonic oscillator , simple, complex and torsional pendulum , spring constant determination , acceleration of gravity with simple pendulum and solid inertia torque with dinimatiko pendulum. Movement restriction, generalized coordinates , motion equations Hamilton. Heat, determination coefficient of thermal conductivity , entropy , thermodynamic laws

natural sciences subject

Physics (Electromagnetism)

APOSTOLOS PANTINAKIS - undergraduate - (A+)
School of Electronic and Computer Engineering, Technical University of Crete

Introduction to electrostatics: Electric charge, Coulomb's law, concept of electrostatic field and potential, charge motion in electric field. Gauss law and applications. Electric potential, electric potential difference, electric dipole, electric potential energy, determination of electrostatic field from measurements of potential. Electrical properties of matter: Dielectric and conductors. Biot-Savart Law . Magnetic induction, magnetic flux, magnetic dipole field,scalar magnetic potential, magnetized material fields, magnetization, magnetic field equations, hysteresis diamagnitism, paramagnetism, ferromagnetism, antiferroromagnitism, Ampere's Law,current carrying conductors, solenoid. Induction currents, time-varying magnetic flux, Faraday's Law, Lenz's Law , inductance coefficient L, LR Circuit. Energy in electric and magnetic fields, electromagnetic oscillations in LC system, dumped and forced oscillations, resonance in LCR circuit. Wave concepts, principle of electromagnetic wave generation, e-m field energy and intensity , electric dipole, polarization, dielectrics. Poynting Vector, inductive magnetic fields, displacement current, Maxwell equations , EM wave propagation in vacuum and in matter, EM spectrum range, transmission lines, waveguides, interaction of EM waves with matter: absorption, scattering, reflection, interference diffraction, photoelectric effect.

natural sciences subject

Electrical Circuits II

Panagiota Papadopoulou - Undergraduate - (A-)
Electrical Engineering, Eastern Macedonia and Thrace Institute of Technologie

natural sciences subject

Electrical Circuits I

Athanasios Ioannou - Undergraduate - (A-)
Electrical Engineering, Eastern Macedonia and Thrace Institute of Technologie

natural sciences subject

Strength of Materials

George Tsakataras - Undergraduate - (A+)
Oil and Gas Technology, Eastern Macedonia and Thrace Institute of Technologie

The lessons have been designed to explain the behaviour of linear elastic bodies and the implementation of of these fundementals in strength calculations.

natural sciences subject

FLUID MECHANICS I

Theologos Panagiotidis - Undergraduate - (A-)
Oil and Gas Technology, Eastern Macedonia and Thrace Institute of Technologie

Fundamental concepts of fluids, properties-definitions, hydrostatics, buoyancy-floating-balance, fluid kinematics-basic equations, application of mass, energy, momentum and torque balance. Real fluids (viscous flows, Reynolds number, boundary layers, drag, Stokes law, flow in single pipes, mechanical lubrication). Ideal flow (velocity potential, stream functions).

natural sciences subject

FLUID MECHANICS IΙ

Theologos Panagiotidis - Undergraduate - (A-)
Oil and Gas Technology, Eastern Macedonia and Thrace Institute of Technologie

Theoretical Part Dimensional analysis. Compressed flows (Mach number, isentropic flow, shock waves, Fanno and Rayleigh lines). Steady flow in closed conduits (exponential types of losses , tubes in series and in parallel, piping networks, Hardy-Cross method). Steady flow in open conduits. Variable flow (water hammer). Laboratory Practice Measurement of boundary layer thickness. Measurement of diaphragm inlet flow. Calculation of standard sizes from model mesurements. Viscosity measurements with the help of industrial-type viscometers. Application of momentum theorem. Measurements in open conduits. Weirs. Use of PIV measurement system in selected fluid-mechanics arrangements

natural sciences subject

Electrical plan

Pantelis Antoniades - Undergraduate - (A-)
Electrical Engineering, Eastern Macedonia and Thrace Institute of Technologie

natural sciences subject

Heat Transfer

Gregores Iordanou - Undergraduate - (A-)
Oil and Gas Technology, Eastern Macedonia and Thrace Institute of Technologie

natural sciences subject

Solid State Physics

Ioannis - Undergraduate - (A+)
Department of Materials Science and Technology, University of Crete

This course is an introduction to the relationships connecting atomic structure and macroscopic properties of solids. It includes an introduction to the calculus of periodic functions of three variables, including Bravais Lattices. Two simple models are used throughout the class: the homogeneous solid (Jellium) and the linear combination of atomic orbitals (LCAO). Through these models, all key properties of solids are introduced to the students, including mechanical, thermal, electrical, optical and magnetic properties. Relatioships between quantities that describe different properties are highlighted.