Examples on Initial and Final Conditions in Network Theory explained with following Timestamps:
0:00 - Examples on Initial and Final Conditions - Network Theory
0:17 - Concept of Initial and Final Conditions in Inductor and Capacitor
1:23 - 1 - Example on Initial and Final Conditions
7:59 - 2 - Example on Initial and Final Conditions

Examples on Initial and Final Conditions in Network Theory explained with following outlines:
0. Network Theory
1. Examples on Initial and Final Conditions
3. Concept of Initial and Final Conditions in Inductor and Capacitor
4. Initial conditions
5. Final Conditions
6. Examples on Initial conditions
7. Examples on Final conditions

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 Initial Condition and Final Condition of Electrical Elements for transient Analysis:

In electrical circuits, the behavior of the circuit during the transient period immediately after a change in input is influenced by the initial conditions of the circuit's elements. The initial conditions refer to the values of the element voltages and currents before the change in input occurs. The final conditions, on the other hand, refer to the steady-state values of the element voltages and currents after the transient period has ended.

The initial conditions and final conditions of electrical elements are important for transient analysis, which is the analysis of circuit behavior during the transient period. The initial and final conditions of the electrical elements can be determined by considering the type of element and the nature of the input signal.

For resistors and capacitors, the initial voltage is determined by the voltage across the element immediately before the change in input occurs. The initial current is determined by the current flowing through the element immediately before the change in input occurs. The final voltage and current of a resistor and capacitor are determined by the steady-state voltage and current of the circuit.

For inductors, the initial current is determined by the current flowing through the inductor immediately before the change in input occurs. The initial voltage is determined by the voltage across the inductor, which is equal to the back-emf generated by the inductor due to the change in current. The final current and voltage of an inductor are determined by the steady-state current and voltage of the circuit.

In summary, the initial and final conditions of electrical elements are important for transient analysis, and they can be determined by considering the type of element and the nature of the input signal. By taking into account the initial and final conditions of the elements, it is possible to accurately analyze the behavior of the circuit during the transient period.