المواد الدراسية
Credit : 1
Introduction
Planning of masters research programme
Writing a plan
Literature review – Library and internet
Collection, classification and extraction of information from published articles
Work methodology
Analysis and data presentation...
Credits : 4 (3+0+1)
Coulomb’s law, electric fields, Gauss’ Law, electric potential, potential energy, capacitance and dielectric, currents and resistance, Ohm's law, electrical energy and power, direct current circuits, Kirchhoff's rules.
Magnetic...
Credit : 2 (0+0+2)
Pre-requisite : PHYS 371 + PHYS 396
X-Ray diffraction
Dielectric constant
Hall effect
Magnetic Succipility
Magnetic Resonance
Solar Cells
Energy gap for semiconductors
Noble metal resistance
Electron diffraction
Photoelectric...
PHYS 671 Physics of Low-Dimensional Structure 3 (3+0)
Histostructure concepts and low dimensional systems, Quantum Wells, nanowires, quantum dots, tunneling transport, Quantum physics applied to such systems, Optical properties of low dimensional...
PHYS 103 General phys. For Engineering and Computer Science 4(3+1+0)
1. Introduction (Vectors)
2. Motion in one dimension with constant acceleration
3. Motion in two dimension with application to projectile motion and circular motion
4. Newton's...
PHYS 473 Materials Science 3 (2+1+0)
States of matter (liquid, crystalline & vitreous)
Crystal structure of metals
Metallography (reflecting optical microscope, TEM) specimen preparations
Mechanical testing (hardness & tensile test...
PHYS 371 Solid State Physics I 3 (3+0+0)
Definition of the Solid State and Crystal Growth
Crystalline Amorphous and Nano solids
Atomic Binding
Crystal Lattices and Structures, Miller indices
Elastic Constants,
Crystal Defects,
...
Phys 574 Materials Science 3(3+0)
Crystalline and amorphous solids - Types of defects
Crystal growth - Thin films – Nanoproperties
X-ray diffraction – Elemental analysis
Metallic, semiconducting and insulating materials
Phase change in solids...
PHYS 145 Physics for Health Science Students 3 (2+1+0)
1. Mechanics:
a) Basic Principles of Mechanics : Units & dimensions, vector analysis, velocity & acceleration, forces, Newton's law of motion, gravity, work, energy, power.
b)...