You may be wondering how charges can continuously flow in an electrical circuit in a uniform direction through wires without the benefit of these hypothetical Sources and Destinations. In order for the Source-and-Destination plan to…
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Kirchhoff’s Voltage Law | Kirchhoff’s Loop Rule | Divider Circuits
Just like the current source of the Kirchoff, the voltage source of the Kirchoff is very important. The combination of these two sources and Ohm’s formulas forms the basis of electrical circuit theory. So to…
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Y-Δ Conversion: Transformation | Diagram & Formula
One of the most commonly used conversion methods in three-phase electric circuit analysis is the transformation of star delta. In addition, there are some complex circuits that make it difficult to determine whether a series…
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Thevenin and Norton Theorem Circuits Conversion | Solved Problems
Thevenin Theorem and Norton Theorem are two important techniques for complex circuit solutions. Sometimes changing the Thevenin Equivalent Circuit to Norton Equivalent Circuit or Norton Equivalent Circuit to Thevenin Equivalent Circuit can be solved more…
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What Are Linear and Non-Linear Circuits and It’s Difference
Various types of electrical devices are made by combining linear and non-linear elements. So in order to better understand the basic design of these electrical devices we need to know about linear and non-linear circuits….
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AC Circuit Definitions| Features Advantages, Disadvantages
Alternating current (AC), which means it will change periodically. We know that the DC current is always flowing in the same direction where the AC current is positive in one direction and after that, the…
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