Akademik Dersler - İçerik

review vector and scaler calculus, complex numbers.
uses vector and scaler magnitudes.
recognises orthogonal coordinate systems
calculates the magnetic field in homogeneous and non-homogeneous environments by using vector potential and dipol moment
describes the process of sum, extraction and multiplication in vectors
adapts derivative and integral calculations to vectors
explains Gradyant, divergence and Stoke's theorem.
understand the fundamentals of Electrostatics.
Describes the systems with separate and constant weight
defines the systems with constant weight flow and examines the relation of this system with the others
Describes the boundary conditions for dielectric equipmen
understand boundary value problems.
differentiates the equipment according to their sensitivity to magnetic field
discusses experimental techniques for different equipment
understand the characteristics of materials and their interactions with electric fields.
differentiates the equipment according to their sensitivity to magnetic field
discusses experimental techniques for different equipment
understand the fundamentals of Magnetostatics.
states the sources of magnetic field
calculates the magnetic field in magnetic and non-magnetic environments
Will be able to formulate certain systems with limit values.
calculates the magnetic field and potential distribution caused by magnetic field distribution in symmetrical and non-symmetrical systems
defines the systems with constant weight flows and examines the relation of this system with the others.