Laplace transforms: Simple Electrical Network: Difference between revisions

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<math>RC\dfrac{di_R}{dt}+i_R-i_C=0</math>
<math>RC\dfrac{di_R}{dt}+i_R-i_C=0</math>


Solve the system when V0 = 50 V, L = 0.5 h, R = 60 Ω, C = 10<sup>-4</sup> f, and the currents are initially zero.
Solve the system when V0 = 50 V, L = 0.5 h, R = 80 Ω, C = 10<sup>-4</sup> f, and the currents are initially zero.


==Solution==
==Solution==

Revision as of 14:40, 1 December 2009

Problem Statement

Using the formulas



Solve the system when V0 = 50 V, L = 0.5 h, R = 80 Ω, C = 10-4 f, and the currents are initially zero.

Solution

Solve the system when V0 = 50 V, L = 0.5 h, R = 60 Ω, C = 10^{-4} f, and the currents are initially zero. Substituting numbers into the equations, we have

Applying the Laplace transform to each equation gives

Solving for gives