ELECTRICAL CIRCUIT THEORY (I)
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ELECTRICAL CIRCUIT THEORY (I)
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Lecture 2.1Mathematical form of representing A.C signals1h
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Lecture 2.2Phasor diagram for a.c circuits drawn to scale
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Lecture 2.3PHASOR DIAGRAMS FOR SERIES AND PARALLEL A.C CIRCIUT1h
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Lecture 2.4DERIVATIONS OF Q-FACTOR, DYNAMIC IMPEDENCE AND BANDWIDTH AT RESONANCE FREQUENCY1h
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Lecture 2.5TERMS USED IN ELECTRIC NETWORK1h
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Lecture 2.6BASIC PRINCIPLES OF MESH CIRCUIT ANALYSIS
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Lecture 2.7BASIC PRINCIPLE OF NODAL ANALYSIS1h
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Lecture 2.8REDUCTION OF A COMPLEX NETWORK TO ITS SERIES OR PARALLEL EQUIVALENT
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Lecture 2.9DERIVATION OF FORMULAE FOR THE TRANSFORMATION OF A DELTA TO A STAR NETWORK AND VICE VERSA1h
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Lecture 2.10DUALITY PRINCIPLE
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Lecture 2.11DUALITY OF A NETWORK
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Lecture 2.12THEVENIN’S THEOREM1h
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Lecture 2.13NORTON’S THEOREM1h
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Lecture 2.14MILLIMAN’S THEOREM1h
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Lecture 2.15RECIPROCITY THEOREM
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