Summary

This document contains questions and problems related to electrical circuit analysis, such as mesh analysis, Norton's theorem, and Thevenin's theorem. The problems involve calculating currents, voltages, and other parameters in various electrical circuit configurations.

Full Transcript

**PART-B/PARTC** **CIA-1** 1\. Determine the loop current using MESH analysis and Cramer's rule 2\. Determine the load current taken from the source ![](media/image2.png) 3.Calculate the Current through the branch a-b in the given circuit diagram using mesh analysis. 4\. Determine the load cur...

**PART-B/PARTC** **CIA-1** 1\. Determine the loop current using MESH analysis and Cramer's rule 2\. Determine the load current taken from the source ![](media/image2.png) 3.Calculate the Current through the branch a-b in the given circuit diagram using mesh analysis. 4\. Determine the load current taken from the source ![](media/image4.png) **5.** **Determine the current trough 30 Ω resistor using Norton's theorem.** **(Or)** **6.** For the given circuit, find the Thevenin's equivalent circuit across A and B. ![](media/image6.png) **7..** Discuss the steps to Thevenize a circuit with suitable example. **8..** Find the voltage drop across the 12ohm resistance using Norton's theorem for the circuit shown in figure **9.** The following network is operating in a sinusoidal steady state supply. Find the XL , XC , Impedance, Current I, Power factor, Apparent power and Reactive power. ![](media/image8.png) **10.** Calculate the inductive reactance XL, Capacitive reactance XC and the Potential difference across the resistance for a series RLC circuit with L=8.1 mH, C = 12.5 μ F and R= 10 Ω connected with an AC source of 100V of frequency 500Hz.

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