Electric Circuit Analysis: Unit III: Transient Response Analysis

Laplace transformation technique

Transient Response Analysis

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For a given circuit, we can obtain the differential equations by the applications of Kirchoff's law. Such equations can be solved by (a) Classical method, (b) Laplace transformation method and so on.

LAPLACE TRANSFORMATION TECHNIQUE

For a given circuit, we can obtain the differential equations by the applications of Kirchoff's law. Such equations can be solved by (a) Classical method, (b) Laplace transformation method and so on.

If the differential equation is of higher order, classical method is very tedious.

Laplace transformation method enables us to solve differential equation systematically and incorporates both transient and steady state as well as the initial conditions.

Electric Circuit Analysis: Unit III: Transient Response Analysis : Tag: : Transient Response Analysis - Laplace transformation technique

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Electric Circuit Analysis

EE3251 2nd Semester 2021 Regulation | 2nd Semester EEE Dept 2021 Regulation

Electric Circuit Analysis: Unit III: Transient Response Analysis

Laplace transformation technique

Transient Response Analysis

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