Steps, Example Figure with Equation | Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
The nodal method is used to analyze multisource circuits. In this method, Kirchoff's current law is applied at various nodes in an electric circuit.
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Mesh and nodal analysis are the two basic techniques used to find solutions for a network.
Steps, Example Figure with Equation | Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Mesh and nodal analysis are the two basic techniques used to find solutions for a network.
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
It states that the algebraic sum of the current meeting at a junction (or) node is equal to zero.
Current, Voltage Law, Example Equation | Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
It states that the algebraic sum of the current meeting at a junction (or) node is equal to zero.
with Solved Example Problems | Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Two capacitances C1 and C2 are connected in series across voltage V. Let C is the equivalent capacitance and current is I.
with Solved Example Problems | Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Two inductances L1 and L2 are connected in series with a voltage V.Here the supply voltage is equal to the summation of voltage drops across L1 and L2.
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Two resistors R1 and R2 connected in series.Total voltage V = V1 +V2.
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Two resistors R1 and R2 connected in series.Total voltage V = V1 +V2
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
Two resistors R1 and R2 connected in parallel.Total current I = I1 + I2
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
When the resistors are the connected.In this combination voltage is same and current through the various resistors are different.
Electrical Circuits
Subject and UNIT: Basic Electrical and Electronics Engineering: Unit I: Electrical Circuits
If the resistors are connected end to end the combination is said to be series. The voltage source is connected between the free ends.