Given the circuit, as shown in Fig. 43, obtain the currents and voltages across each element. The values of impedances and the source are specified below. Use Mesh Analysis to solve the problem. At the bottom of this page, you have additional resources. If you click on HELP FILE button, a pop-up window opens and it is shown how this probe lm can be solved. If you click on CRAMER's RULE button, a pop-up window opens and you have an interactive web page that you can use to verify your solution based on Cramer's rule. If you have use Gaussian Elimination Method, you can click on GAUSS ELIM. METHOD button. Then a pop-up window opens and you have an interactive web page that you can use to verify your solution.
Remember to click either of the two buttons with the label, Show Answers or Check Answers, before you see how this problem is solved using the applet buttons with the caption Show solution using Cramer's rule and Show solution using Gaussian Elimination method.
We can verify the results by the use of Tellegen's theorem. We need to voltages across each of the impedances. The voltages across the impedances are marked in Fig. 45.
The applet shown below contains the voltages and the apparent power associated with each element in the circuit. You can verify that the sum of apparent power across all elements is zero.