Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits : Worked examples
Statement, Circuit Diagram, Equation, Steps, Calculation, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits : Boot worked examples (Thevenin's theorem)
Statement, Circuit Diagram, Equation, Steps, Calculation, Solved Example Problems
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Suppose that the current through the load resistance R is required. It can be calculated by the following methods. (a) Series parallel simplification (b) Branch current method (c) Loop current method
Star, delta transformation or t, π transformation | dc and ac Circuits
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits : Exercise
Star, delta transformation or t, π transformation
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits : Network Reduction and Theorems for dc and ac Circuits
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Between three terminals A, B and C, we can connect three resistances (impedances) in two fashions. One is called star connection (y), the other is Delta connection (A).
dc and ac Circuits
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits : Worked examples
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
For the mesh method of analysis, it is easier if the circuit has voltage sources. In the nodal analysis, it is easier if the circuit consists of current sources.
Subject and UNIT: Electric Circuit Analysis: Unit II: Network Reduction and Theorems for dc and ac Circuits
To find the expressions for the voltages V1, V2 and V3 in terms of V, R1, R2, R3
Basic circuits analysis | Electric Circuit Analysis
Subject and UNIT: Electric Circuit Analysis: Unit I: b. Basic circuits analysis
Electric Circuit Analysis: Unit I: Basic circuits analysis : Exercise
Subject and UNIT: Electric Circuit Analysis: Unit I: b. Basic circuits analysis
Electric Circuit Analysis: Unit I: Basic circuits analysis : Revision of formulae
Basic circuits analysis | Electric Circuit Analysis
Subject and UNIT: Electric Circuit Analysis: Unit I: b. Basic circuits analysis
Electric Circuit Analysis: Unit I: Basic circuits analysis : Points to Remember