RTh R I, N1 R3 A A 1ka 10kn R. R. Vs. L1 R L2 VTh 1ka 1ko 5V 1ka R В В 10k2 N2 GND GND Figure 2: The Thevenin equivalent circuit. Implement the circuit shown in Figure 2 above on the provided board. This circuit will be used to verify the Thevenin equivalent circuit. Experimental Steps and Procedures: Once the circuit is correctly setup on the board, please perform the following tasks: 1) Disconnect the load (RL), Replace the source (Vs) with a short circuit and measure the total resistance between A and B, RTh: RTh = 2) Reconnect the source (Vs), disconneci the load (RL) frem the circuit, and measure the voltage betweer points A and B, Vra. VTh .... 3) Calculate theoretically the current IL at resistor RL. 4) Measure the current IL at resistor RL 5) Compare between the theoretical and measured values of IL.

RTh R I, N1 R3 A A 1ka 10kn R. R. Vs. L1 R L2 VTh 1ka 1ko 5V 1ka R В В 10k2 N2 GND GND Figure 2: The Thevenin equivalent circuit. Implement the circuit shown in Figure 2 above on the provided board. This circuit will be used to verify the Thevenin equivalent circuit. Experimental Steps and Procedures: Once the circuit is correctly setup on the board, please perform the following tasks: 1) Disconnect the load (RL), Replace the source (Vs) with a short circuit and measure the total resistance between A and B, RTh: RTh = 2) Reconnect the source (Vs), disconneci the load (RL) frem the circuit, and measure the voltage betweer points A and B, Vra. VTh .... 3) Calculate theoretically the current IL at resistor RL. 4) Measure the current IL at resistor RL 5) Compare between the theoretical and measured values of IL.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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