RL , RC and RLC Circuit
Voltage and Current Sources - Ideal and Practical | Basic Electrical Engineering
Current Electricity 11: Kirchhoff's Law - Kirchhoff's Current Law & Kirchhoff's Voltage Law
Video Lecture on Mesh Analysis from Chapter DC Circuits of Subject Basic Electrical Engineering for First-Year Engineering Students.
Video Lecture on Nodal Analysis from Chapter DC Circuits of Subject Basic Electrical Engineering for First-Year Engineering Students.
So, in this video, first, Superposition Theorem is explained using one example of an electrical circuit and then three examples based on this Superposition Theorem has been solved. Superposition Theorem Statement: Any linear bilateral network containing more than one independent sources, the response in any of the branches ( Voltage or Current) is equal to the algebraic sum of the responses caused by each individual sources acting alone, where rest of the sources are replaced by their internal impedance. So, ideal voltage source will be replaced by a short circuit and ideal current source will be replaced by an open circuit.
In this video, we will learn about the Thevenin's Theorem in the electrical circuits. Thevenin's Theorem is a very useful technique in solving the circuit problems when your entire focus is on a particular element in the network and you are not bothered much about the remaining network or circuit.
Norton's Theorem Explained (With examples of Independent and Dependent Sources)
In this video, you will learn about the Maximum Power Transfer Theorem for the DC circuits. So, using this maximum power transfer theorem, we can find the value of load resistance for which maximum power will get a transfer to the load. Statement of Maximum Power Transfer Theorem: "The maximum amount of power will get transferred to load when the value of the load resistance is equal to the Thevenin's equivalent resistance of the given network."
In this video, you will learn that how to convert star network into the delta network. This star to delta conversion is very useful in solving the circuit problems.
In this video, the transient analysis for the first order RC and RL circuits have been discussed. So, in this video, we will see the two kinds of responses for this first order RC and RL circuits.