Procedure A Kirchhoff's voltage law: The circuit in Figure 2 will be used to test the validity of Kirchhoff's voltage law. R1 1000 2 -V1 12 V R2 160 R3 2200 Figure (2) Construct the circuit as shown in the figure (2). Measure the power supply output voltage and the potential drops across each of the three resistors. Record these measurements in your lab notebook as in the following table:

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Lrocedure A- Kirchhoff's voltage law: The circuit in Figure 2 will be used o test the valdity of Kirchhoffs voltage law, Figure (2) Construct the circuit as shown in the figure (2). Measure the power supply output voltage and the potential drops across each of the thrae resistors. Record these measurements in your lab notebook as in the following table: University of Ti-Qar/ Departmnt of Elctricl aad Fectronlc Enginearing / Prepared by M 5¢ Al Karvem Soes 1+ Stage: Fundamentals of Flectrical Engineering | Lob 3 - Kirchhoff's Laws. 201520, Table 1; data collected for testing the validity of Kirchhot?s voltage law. 3)From your experimental data (table 2), calculate the total current into the node point P. Now calculate the total current out of the node point P along with its uncertainty. Does the current into the node agree with the current out of the node within experimental uncertainty?
Procedure
A- Kirchhoff's voltage law: The circuit in Figure 2 will be used to test the validity of
Kirchhoff's voltage law.
R1
1000
21
V1
12 V
R2
1600
R3
4
2200
Figure (2)
Construct the circuit as shown in the figure (2). Measure the power supply output voltage and
the potential drops across each of the three resistors. Record these measurements in your lab
notebook as in the following table:
University of Thi-Qar/Department of Electrical and Electronic Engineering /Prepared by M.Sc. All Kareem
Page 2
1 Stage: Fundamentals of Electrical Engineering
Lab 3-Kirchhoff's Laws
2015-2016
Object
Power supply
Ra
R
Rs
Potential across object (V)
Table 1: data collected for testing the validity of Kirchhotf's voltage law.
3) From your experimental data (table 2), calculate the total current into the node point P. Now
calculate the total current out of the node point P along with its uncertainty. Does the current
into the node agree with the current out of the node within experimental uncertainty?
Transcribed Image Text:Procedure A- Kirchhoff's voltage law: The circuit in Figure 2 will be used to test the validity of Kirchhoff's voltage law. R1 1000 21 V1 12 V R2 1600 R3 4 2200 Figure (2) Construct the circuit as shown in the figure (2). Measure the power supply output voltage and the potential drops across each of the three resistors. Record these measurements in your lab notebook as in the following table: University of Thi-Qar/Department of Electrical and Electronic Engineering /Prepared by M.Sc. All Kareem Page 2 1 Stage: Fundamentals of Electrical Engineering Lab 3-Kirchhoff's Laws 2015-2016 Object Power supply Ra R Rs Potential across object (V) Table 1: data collected for testing the validity of Kirchhotf's voltage law. 3) From your experimental data (table 2), calculate the total current into the node point P. Now calculate the total current out of the node point P along with its uncertainty. Does the current into the node agree with the current out of the node within experimental uncertainty?
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