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Lecture 01: Basic Concepts, Examples
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Lecture 02: Basic Concepts, Examples (Contd.)
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Lecture 03: Basic Concepts, Examples (Contd.)
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Lecture 04: Basic Concepts, Examples (Contd.)
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Lecture 05: Basic Laws
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Lecture 06: Basic Laws (Contd.)
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Lecture 07: Basic Laws (Contd.)
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Lecture 08: Basic Laws (Contd.)
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Lecture 09: Basic Laws (Contd.)
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Lecture 10: Basic Laws (Contd.)
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Lecture 11: Methods of Circuit Analysis
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Lecture 12: Methods of Circuit Analysis (Contd.)
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Lecture 13: Methods of Circuit Analysis (Contd.)
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Lecture 14: Methods of Circuit Analysis (Contd.)
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Lecture 15: Methods of Circuit Analysis (Contd.)
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Lecture 16: Methods of Circuit Analysis (Contd.)
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Lecture 17: Methods of Circuit Analysis (Contd.)
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Lecture 18: Methods of Circuit Analysis (Contd.) and Circuit Theorems
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Lecture 19: Circuit Theorems (Contd.)
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Lecture 20: Circuit Theorems (Contd.)
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Lecture 21: Circuit Theorems (Contd.)
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Lecture 22: Circuit Theorems (Contd.)
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Lecture 23: Circuit Theorems (Contd.)
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Lecture 24: Circuit Theorems (Contd.)
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Lecture 25: Circuit Theorems (Contd.) and Capacitors & Inductors
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Lecture 26: Capacitors & Inductors (Contd.)
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Lecture 27: Capacitors & Inductors (Contd.)
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Lecture 28: Capacitors & Inductors (Contd.)
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Lecture 29: First Order Circuits
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Lecture 30: First Order Circuits (Contd.)
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Lecture 31: First Order Circuits (Contd.)
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Lecture 32: First Order Circuits (Contd.)
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Lecture 33: First Order Circuits (Contd.)
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Lecture 34: First Order Circuits (Contd.)
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Lecture 35: First Order Circuits (Contd.)
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Lecture 36: First Order Circuits (Contd.)
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Lecture 37: Single phase AC circuits
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Lecture 38: Single phase AC circuits (Contd.)
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Lecture 39: Single phase AC circuits (Contd.)
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Lecture 40: Single phase AC circuits (Contd.)
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Lecture 41: Single phase AC circuits (Contd.)
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Lecture 42: Single phase AC circuits (Contd.)
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Lecture 43: Single phase AC circuits (Contd.)
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Lecture 44: Resonance and Maximum Power Transfer Theorem
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Lecture 45: Resonance and Maximum Power Transfer Theorem (Contd.)
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Lecture 46: Resonance and Maximum Power Transfer Theorem (Contd.)
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Lecture 47: Three phase circuits
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Lecture 48: Three phase circuits (Contd.)
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Lecture 49: Three phase circuits (Contd.)
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Lecture 50: Three phase circuits (Contd.)
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Lecture 51: Magnetic Circuits
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Lecture 52: Magnetic Circuits (Contd.)
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Lecture 53: Magnetic Circuits (Contd.)
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Lecture 54: Single Phase Transformer
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Lecture 55: Single Phase Transformer (Contd.)
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Lecture 56: Single Phase Transformer (Contd.)
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Lecture 57: Single Phase Transformer (Contd.)
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Lecture 58: Three phase Induction Motors
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Lecture 59: Three phase Induction Motors (Contd.)
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Lecture 60: Three phase Induction Motors (Contd.)
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Lecture 61: Three phase Induction Motors (Contd.)
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Lecture 62: DC Motors
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Lecture 63: DC Motors (Contd.)
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Lecture 64: DC Motors (Contd.)
Description:
COURSE OUTLINE: This course is mainly for undergraduate First-Year Engineering students from all Specializations. This course will introduce and explain the fundamental concepts of basic electrical engineering. The basic concepts of DC and AC (Single Phase and Three Phase Circuits) network analysis, first order DC transients, steady-state and phasor analysis of AC networks, series and parallel resonance and magnetic coupled circuits. This course will also cover Single Phase Transformers, Three Phase Induction Machines and DC Machines. By the end of the course, the students should be able to gather high-quality knowledge of basic Electrical Engineering.

Fundamentals of Electrical Engineering

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#Engineering #Electrical Engineering #Circuit Analysis #Electronics #Capacitors #Inductors #Computer Science #Machine Learning #Transformers
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Lecture 01: Basic Concepts, Examples