Statement, Proof, Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 2: Network Theorems - DC
In DC circuits, maximum power is transferred from a source to the load when the load resistance is made equal to the resistance of the network as viewed from the load terminals with load removed and all the sources are replaced by their internal resistances.
Statement, Proof, Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 2: Network Theorems - DC
To calculate IN : For the given network, short circuit the load terminal and then measure the current passing through the load terminal that gives short circuit current (IN) through AB.
Statement, Proof, Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 2: Network Theorems - DC
This theorem is useful when it is necessary to find the current in only one branch of a network.
Statement, Proof, Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 2: Network Theorems - DC
"In a linear network containing several sources (including dependent sources), the over all response (branch current or voltage) in any branch in the network equals the algebraic sum of the responses of each individual source considered separately with all other sources made inoperative. i.e replaced by their internal resistances or impedances".
Electric Circuit Analysis
Subject and UNIT: Electric Circuit Analysis: Chapter - 2: Network Theorems - DC
The reader, by now has an idea of an electric circuit, electric network, the connection terminology, the basic laws governing the performance of electric circuits and the network reduction techniques.
Basic Circuit Analysis - DC | Electric Circuit Analysis
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
Electric Circuit Analysis : Chapter - 1 : Basic Circuit Analysis - DC : Electric Circuit Analysis
Basic Circuit Analysis - DC | Electric Circuit Analysis
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
Electric Circuit Analysis : Chapter - 1 : Basic Circuit Analysis - DC : Review Questions
Basic Circuit Analysis - DC | Electric Circuit Analysis
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
Electric Circuit Analysis : Chapter - 1 : Basic Circuit Analysis - DC : One Mark Questions and Answer
Statement, Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
The nodal method is used to analyze multi source circuits. In this method, we solve the simultaneous equations using Kirchhoff's current law (KCL) applied at various nodes in an electric circuit.
Statement, Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
In mesh method, Kirchhoff's Voltage Law (KVL) is applied to a network. For this network, we have to write mesh equations interms of mesh currents. Here, we are using mesh currents instead of branch currents.
Circuit Diagram, Formula, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
Consider the circuit in figure 1.19. The total effective resistance between A and B is easily found since R1 and R2 are in series and R3 and R4 are also in series.
Statement, Circuit Diagram, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Chapter - 1: Basic Circuit Analysis - DC
If a voltage source has a resistance connected in series, it can be transformed into an equivalent current source with a resistance connected in parallel. It is shown in figure 1.17.