Differential Equations in Electrical Systems (Electrical Engineering Essentials with Python)
Author: Jamie Flux (Author)
ASIN: B0DJDFMQZF
Publisher finelybook 出版社: Independently published
Publication Date 出版日期: 2024-10-02
Language 语言: English
Print Length 页数: 384 pages
ISBN-13: 9798340965868
Book Description
Unlock the intricate connections between electrical systems and differential equations with this comprehensive guide, designed for both budding electrical engineers and seasoned professionals. Dive deep into a seamless blend of theory, application, and practical coding techniques using Python for each chapter. This extensive resource covers a spectrum of topics from foundational concepts to advanced applications, making it an essential companion for anyone in electrical engineering or a related field.
Key Features:
– A holistic approach covering an expansive range of topics in differential equations within electrical systems.
– Practical applications and examples explained through Python code to enhance understanding and execution.
– In-depth analysis of various electrical components and their behavior under diverse conditions.
What You Will Learn:
– The pivotal role of differential equations in analyzing and designing electrical systems.
– Basic to advanced methodologies for solving first-order differential equations in circuit analysis.
– How to implement the method of separation of variables for effective solution extraction.
– Utilization of integrating factors in solving non-homogeneous differential equations.
– Techniques for solving second-order linear differential equations typical in RLC circuits.
– Discover homogeneous equation solutions with constant coefficients in detail.
– Identifying particular solutions in non-homogeneous equations with ease.
– Exploring alternative strategies like the method of variation of parameters.
– Understanding the formulation and solution of higher-order differential equations.
– Laplace Transform theory and applications in circuit response analysis.
– Mastering inverse Laplace Transforms using partial fraction methods.
– How to analyze transient behaviors in electrical systems with Laplace Transforms.
– Approaches to solving sinusoidal input problems using Laplace Transforms.
– Utilizing Fourier series for periodic function resolution in circuits.
– Exploring Fourier Transform applications for non-periodic signal analysis.
– Application of Discrete Fourier Transform in sampled signal analytics.
– Comprehension of system functions and transfer functions in engineering.
– Deciphering complex impedances and phasor relations for AC circuit analysis.
– Response analysis to impulse and step inputs in electrical systems.
