Electrical and Electronics Engineering (English)

Lesson plan / DIFFERENTIAL EQUATIONS FOR ELECTRICAL ENGINEERING

Lesson Information

Course Credit 3.0
Course ECTS Credit 5.0
Teaching Language of Instruction İngilizce
Level of Course Bachelor's Degree, TYYÇ: Level 6, EQF-LLL: Level 6, QF-EHEA: First Cycle
Type of Course Compulsory
Mode of Delivery Face-to-face
Does the course require compulsory or optional work experience? Z
Course Coordinator
Instructor (s) Assist. Prof. Dr. NECİP GÖKHAN KASAPOĞLU
Course Assistant

Purpose and Content

The aim of the course To give basics of differential equations and Apply solutions of Differential Equations in Electrical Engineering Problems.
Course Content Introduction to Differential Equations, Modeling, The first order linear differential equations and their solutions, Second and Higher order differential equations and their solutions, Laplace Transform, and applications of Laplace Transform.

Weekly Course Subjects

1Introduction to Differential Equations, Modeling and Direction Fields.
2Basics in Differential equations, initial conditions and boundary value problems.
3Classification of Differential Equations.
41st order linear differential Equations: Seperable equations.
5Integrating factor and solving differential equations using the integrating factor
6Existance and Uniqueness Theorems.
7Exact Differential Equations.
8Bernoulli Differential Equations.
9Riccati Differential Equations and solutions using change of variables.
102nd and higher order Linear Homogeneous Differential Equations.
11Laplace Transforms
12Laplace Transform for solving nonhomogeneous Differential Equations.
13Modeling with Differential Equations in Electrical Engineering.
14Differential Equations in Electrical Engineering and their solutions.

Resources

1-William E. Boyce, Richard C. DiPrima, Differencial Equations and Boundary Value Problems, John Wiley&Sons.
2-R. Kent Nagle, Edward B. Saff and A. David Snider, Fundementals of Differential Equations and Boundary Value Problems.