Resonance in RLC Circuits
Resonance in an RLC circuit occurs when the inductive reactance (X_L) and capacitive reactance (X_C) are equal. At this point, their opposing effects cancel each other out, resulting in the…[...]
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Balanced and Unbalanced 3-Phase Loads
Balanced and Unbalanced 3-Phase Loads: Understanding the Differences In a three-phase power system, the type of load connected to the system plays a critical role in its overall performance. Loads…[...]
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AC Circuit Theory: Basics
Electricity flows in two main forms: Direct Current (DC) and Alternating Current (AC). While DC flows in one constant direction, AC changes direction periodically. AC is the form of electricity…[...]
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Capacitors and Inductors in Circuits
In electrical and electronic circuits, not all components behave the same way. Some, like resistors, simply reduce or control the flow of current. Others, like capacitors and inductors, can store…[...]
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Basic Electronic Components: Resistors, Capacitors, Inductors
Basic Electronic Components: Resistors, Capacitors, and Inductors Electronic circuits rely on fundamental components imaged like resistors, capacitors, and inductors to manage current flow, store energy, and shape electrical signals. These…[...]
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Electromagnetic Induction: Faraday’s law, Lenz’s law, inductance : Explain
Electromagnetic Induction is the process by which a changing magnetic field creates an electric current. It's the foundation of many devices, including generators, transformers, and electric motors. 1. Faraday's Law…[...]
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Single-Phase AC Circuits – Explained
What is AC (Alternating Current)? Alternating Current (AC) is the type of current that changes direction periodically. In contrast to Direct Current (DC), which flows in one direction, AC's direction…[...]
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Basic Circuit Components
Basic circuit components are the fundamental building blocks of electrical circuits, and each plays a vital role in controlling the flow of current, voltage, and energy. Below is a detailed…[...]
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