Set-up the circuit shown in Fig. 11. a l RO c 12 R2 e + VO + V2 V11 ´ 13 V1 R1 R3 V3 5 V b d f Figure 11. 4.1 Measure the values of currents I, I1, I2 and 13 and voltages V0, V1, V2 and V3 for RO=R1=220Q, R2= 1002, R3=120N by use of the AVO meter. 4.2 Disconnect the voltage source at points a and b. Measure the value of Rab. 4.3 Measure the values of each resistor with an ohmmeter after disconnecting it from the circuit. 5. RESULTS and CONCLUSION : 5.1 Calculate theoretical values of the currents and voltages in section 4.1. and compare the results with the measured ones. 5.2 Using the experimental results, try to prove Kirchoff's current law at points a and b. 5.3 Using the experimental results, try to prove Kirchoff's voltage law for the closed loops abdca, befdb and abefdca. 5.4 Calculate the theoretical value of Rab and compare it with the measured one. 5.5 Comment on the differences between the theoretical and experimental results. + + +

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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Question
Set-up the circuit shown in Fig. 11.
a I
RO
с 12
R2
e
+ Vo -
+ V2
11
V13
+
+
5 V
V1
R1
R3
V3
d
Figure 11.
4.1 Measure the values of currents I, Il, I2 and 13 and voltages V0, V1, V2 and V3 for
RO=R1=2202, R2= 1002, R3=1202 by use of the AVO meter.
4.2 Disconnect the voltage source at points a and b. Measure the value of Rab-
4.3 Measure the values of each resistor with an ohmmeter after disconnecting it from the
circuit.
5. RESULTS and CONCLUSION :
5.1 Calculate theoretical values of the currents and voltages in section 4.1. and compare
the results with the measured ones.
5.2 Using the experimental results, try to prove Kirchoff's current law at points a and b.
5.3 Using the experimental results, try to prove Kirchoff's voltage law for the closed
loops abdca, befdb and abefdca.
5.4 Calculate the theoretical value of Rab and compare it with the measured one.
5.5 Comment on the differences between the theoretical and experimental results.
Transcribed Image Text:Set-up the circuit shown in Fig. 11. a I RO с 12 R2 e + Vo - + V2 11 V13 + + 5 V V1 R1 R3 V3 d Figure 11. 4.1 Measure the values of currents I, Il, I2 and 13 and voltages V0, V1, V2 and V3 for RO=R1=2202, R2= 1002, R3=1202 by use of the AVO meter. 4.2 Disconnect the voltage source at points a and b. Measure the value of Rab- 4.3 Measure the values of each resistor with an ohmmeter after disconnecting it from the circuit. 5. RESULTS and CONCLUSION : 5.1 Calculate theoretical values of the currents and voltages in section 4.1. and compare the results with the measured ones. 5.2 Using the experimental results, try to prove Kirchoff's current law at points a and b. 5.3 Using the experimental results, try to prove Kirchoff's voltage law for the closed loops abdca, befdb and abefdca. 5.4 Calculate the theoretical value of Rab and compare it with the measured one. 5.5 Comment on the differences between the theoretical and experimental results.
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