Continuing with the same setup as above, where you connect a 6Q resistor and a 12 Q resistor in series to a 9 V battery. Find current, I2, flowing through the 12 Q resistor in Amperes. Hint: ITot = I1 = I2. RTot ITot R1 R2 BAT1 12 Q 9 V
Continuing with the same setup as above, where you connect a 6Q resistor and a 12 Q resistor in series to a 9 V battery. Find current, I2, flowing through the 12 Q resistor in Amperes. Hint: ITot = I1 = I2. RTot ITot R1 R2 BAT1 12 Q 9 V
Electricity for Refrigeration, Heating, and Air Conditioning (MindTap Course List)
10th Edition
ISBN:9781337399128
Author:Russell E. Smith
Publisher:Russell E. Smith
Chapter5: Components, Symbols, And Circuitry Of Air-conditioning Wiring Diagrams
Section: Chapter Questions
Problem 27RQ: Change the following normally open elements from the de-energized position to the energized...
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![Continuing with the same setup as above, where you connect a
6 Q resistor and a 12 Q resistor in series to a 9 V battery. Find
current, I2, flowing through the 12 Q resistor in Amperes.
Hint: ITot = I1 = I2.
RTot
ITot
R1
R2
BAT1
12 Q
9 V](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0247e057-6970-4753-93d7-51047bb0ef22%2F37903e49-52cd-4e79-b066-ca1b6b0627a3%2F9p38uup_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Continuing with the same setup as above, where you connect a
6 Q resistor and a 12 Q resistor in series to a 9 V battery. Find
current, I2, flowing through the 12 Q resistor in Amperes.
Hint: ITot = I1 = I2.
RTot
ITot
R1
R2
BAT1
12 Q
9 V
![• V = IR
•I= R
R= 7
V
V.
• Series
ITot = I1 = I2
Vrot = Vị + V2
Vị + V2
RTot = R1 + R2
Parallel
ITot = I + I2
o VTot = Vi = V2
1.
RTot
1
R R
R1 R2
R1+R2
RTot](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0247e057-6970-4753-93d7-51047bb0ef22%2F37903e49-52cd-4e79-b066-ca1b6b0627a3%2Fc85r5lm_processed.jpeg&w=3840&q=75)
Transcribed Image Text:• V = IR
•I= R
R= 7
V
V.
• Series
ITot = I1 = I2
Vrot = Vị + V2
Vị + V2
RTot = R1 + R2
Parallel
ITot = I + I2
o VTot = Vi = V2
1.
RTot
1
R R
R1 R2
R1+R2
RTot
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