1.22 1.23 12V Given the circuit in Figure resistor is: (a) 12 V (b) 6 V V₂ 12 V 6ΚΩ 10k2 |15ΚΩ Figure Q1.22 Q1.22, the voltage drop across the 10 k (c) 2.4 V (d) 7.2 V DR₁ R₂ R₂ 5.0 V Figure Q1.23 For the circuit in Figure Q1.23, assume R, is adjusted until the Wheatstone bridge is balanced. At this point, the voltage across R, is measured and found to be 5.0 V. The voltage across R₁ will be: (a) 5 V (b) 7 V (c) 0 V (d) 12 V

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Q3
1.22
1.23
12V
6k
V₂
12 V
10kΩ
Figure Q1.22
Given the circuit in Figure Q1.22, the voltage drop across the 10 k
resistor is:
(a) 12 V
(b) 6 V
(c) 2.4 V
(d) 7.2 V
R₁
R₂
15k2
R₂
R₂
R₂
5.0 V
Figure Q1.23
For the circuit in Figure Q1.23, assume R, is adjusted until the Wheatstone
bridge is balanced. At this point, the voltage across R, is measured and
found to be 5.0 V. The voltage across R₁ will be:
(a) 5 V
(b) 7 V
(c) 0 V
(d) 12 V
Transcribed Image Text:1.22 1.23 12V 6k V₂ 12 V 10kΩ Figure Q1.22 Given the circuit in Figure Q1.22, the voltage drop across the 10 k resistor is: (a) 12 V (b) 6 V (c) 2.4 V (d) 7.2 V R₁ R₂ 15k2 R₂ R₂ R₂ 5.0 V Figure Q1.23 For the circuit in Figure Q1.23, assume R, is adjusted until the Wheatstone bridge is balanced. At this point, the voltage across R, is measured and found to be 5.0 V. The voltage across R₁ will be: (a) 5 V (b) 7 V (c) 0 V (d) 12 V
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