Examples of Phasor with RLC Circuit in Network Theory explained with following Timestamps:
0:00 - Examples of Phasor with RLC Circuit - Network Theory
0:14 - 1 Example of Phasor with RLC Circuit
6:01 - 2 Example of Phasor with RLC Circuit
12:56 - Summery

Examples of Phasor with RLC Circuit in Network Theory explained with following outlines:
0. Network Theory
1. Phasor Diagram
2. Phasor Diagram of RLC Parallel Circuit
3. Examples of Phasor with RLC Circuit
4. RLC Circuit

Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Network Theory / Circuit and Network.

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Details of Phasor Diagram in Network Theory:
A phasor diagram is a graphical representation of the amplitude and phase of sinusoidal quantities such as voltage and current in a circuit. In a phasor diagram, the amplitude of the sinusoidal quantity is represented by the length of a vector, while the phase angle is represented by the angle that the vector makes with a reference axis.

To draw a phasor diagram, the sinusoidal quantity is first represented by a complex number in the form A∠θ, where A is the amplitude and θ is the phase angle. The complex number is then represented by a vector in the complex plane, with the real part representing the horizontal axis and the imaginary part representing the vertical axis.

For example, consider a sinusoidal voltage V = Vm sin(ωt + φ), where Vm is the peak amplitude, ω is the angular frequency, t is time, and φ is the phase angle. We can represent this voltage as a complex number in the form V = Vm∠φ, where Vm is the amplitude and φ is the phase angle. The phasor diagram for this voltage is shown in video:

In the phasor diagram, the vector representing the voltage has length Vm and makes an angle θ with the reference axis. The reference axis is usually taken to be the horizontal axis, so the angle θ is measured counterclockwise from the horizontal axis.

Phasor diagrams are useful for analyzing circuits containing sinusoidal sources and components. They can be used to determine the amplitude and phase of voltages and currents at various points in the circuit, as well as to determine the impedance of components such as resistors, capacitors, and inductors. Phasor diagrams are also used in AC circuit analysis and power calculations.

Details of Phasor diagram of RLC circuit:

A phasor diagram is a graphical representation of the amplitudes and phase relationships of the voltage and current in a circuit. In an RLC circuit, which consists of a resistor (R), an inductor (L), and a capacitor (C), the phasor diagram shows the relationships between the applied voltage, the current flowing through the circuit, and the voltages across the individual components.

The phasor diagram of an RLC circuit can be divided into two parts: the series RLC circuit and the parallel RLC circuit.

Series RLC circuit:
In a series RLC circuit, the resistor, inductor, and capacitor are connected in series with each other.
Parallel RLC circuit:
In a parallel RLC circuit, the resistor, inductor, and capacitor are connected in parallel with each other.