This course covers basic theory of Solid State Physics for engineering studentsIt will provide a valuable theoretical introduction and an overview of the fundamental applications of the physics of solidsSpecificallythis course includes theoretical description of crystal and electronic structurephonon (lattice dynamics)electronic behaviorsand optical properties of different materials (metalssemiconductorsdielectricsmagnetic materials)based on the classical and quantum physics principlesSome advanced experimental data of X-ray diffractionRaman Scatteringetc.will be analyzed.
This course will cover an introduction to nuclear power plantsinteraction of radiation with matterneutron cross sectionsdiffusion theorycriticality calculationsreactor kineticsneutron slowing down theoryheat transport and temperature distribution in reactor coreand reactivity feedback.
This course covers general dynamicsclassical mechanics in other wordNewton’s Laws of motion Conservative Force and Potential EnergyOscillationsElectrostatics and GravitationEuler-Lagrange equationan Alternative wayCalculus of VariationGeneralized coordinates and Hmiltonian Mechanics
This course discusses on these topics: Hydrogen; Atomic Units of Hydrogen; Ladder Operation Solution; 2 N-Electron Atom; Hartree-Fock Equation
This course discusses about history and theory of the space
This video is made by students taking master’s course at KAISTmajoring in Ocean System EngineeringThis is related to isolation of carbon dioxide from deep sea and the carrier vesselshowing the new concept design regarding the carbon dioxide carrier and related equipmentswhich follows the method of high tension and cold headed.
Crystal Bonding 2
Free Electron Fermi Gas3
Wave Diffraction and Reciprocal Lattice 1
PhononsⅡ Thermal Properties 3
PhononsⅡ Thermal Properties 1
Free Electron Fermi Gas1