Theoretical and experimental values of five resistors in the labora Industrial value (0) Measured value (n) % error 220 + 219.5 16.0 0.28 100 + 0.7 220 + 0.25 330 0.78 220 + 0.28 Name R₁ R₂ R3 R4 R₁ IR1 R1 2200 ww IR2 R2 99.3+5.8 219.45+ 16.0 327.44121.37 219.5+16.0 100 Ω ww IR3 R3 2200 33 Figure 1: Circuit for testing the current divider how that Kirchhoff's Laws are satisfied using the perimental data, for the circuits in Figure 1 (LCK)
Theoretical and experimental values of five resistors in the labora Industrial value (0) Measured value (n) % error 220 + 219.5 16.0 0.28 100 + 0.7 220 + 0.25 330 0.78 220 + 0.28 Name R₁ R₂ R3 R4 R₁ IR1 R1 2200 ww IR2 R2 99.3+5.8 219.45+ 16.0 327.44121.37 219.5+16.0 100 Ω ww IR3 R3 2200 33 Figure 1: Circuit for testing the current divider how that Kirchhoff's Laws are satisfied using the perimental data, for the circuits in Figure 1 (LCK)
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter30: Dc Motors
Section: Chapter Questions
Problem 6RQ: What is CEMF?
Related questions
Question
100%
![Vs
10 V
Theoretical and experimental values of five resistors in the laboratory.
Industrial value (0) Measured value (2)
% error
220 ±
219.5 16.0
0.28
100 +
0.7
220 +
0.25
330 +
0.78
220 +
Name
R₁
R2
R3
R4
R₁
IR1
www
R1
220 Ω
IR2
99.3+5.8
219.45+ 16.0
327.44+21.37
219.5+16.0
R2
- 100 Q
IR3
R3
- 220 Ω
0.28
IR4
R4
330 Ω
Figure 1: Circuit for testing the current divider
Show that Kirchhoff's Laws are satisfied using the
experimental data, for the circuits in Figure 1 (LCK).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F21ff491d-d77d-4861-94b9-2bc36c90c2c9%2Ff985e4b8-9809-47e5-8562-39be7e78b137%2Fdbfr25_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Vs
10 V
Theoretical and experimental values of five resistors in the laboratory.
Industrial value (0) Measured value (2)
% error
220 ±
219.5 16.0
0.28
100 +
0.7
220 +
0.25
330 +
0.78
220 +
Name
R₁
R2
R3
R4
R₁
IR1
www
R1
220 Ω
IR2
99.3+5.8
219.45+ 16.0
327.44+21.37
219.5+16.0
R2
- 100 Q
IR3
R3
- 220 Ω
0.28
IR4
R4
330 Ω
Figure 1: Circuit for testing the current divider
Show that Kirchhoff's Laws are satisfied using the
experimental data, for the circuits in Figure 1 (LCK).
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