RADIO PARALLEL CIRCUIT V₂ = 9 V R₂ = 60 0 I, = 0.15 A 9 V V₂ = R₂ = 10 02 1₂2=0.9► A CONFIRM V₁= 9 V R₁ = 20 02 h₁ = 0.45 A V₂ = 9 V F lo = 1.05 A
RADIO PARALLEL CIRCUIT V₂ = 9 V R₂ = 60 0 I, = 0.15 A 9 V V₂ = R₂ = 10 02 1₂2=0.9► A CONFIRM V₁= 9 V R₁ = 20 02 h₁ = 0.45 A V₂ = 9 V F lo = 1.05 A
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:### Radio Parallel Circuit
The diagram presents a parallel circuit with three branches, each having different resistors and currents, but sharing the same voltage source.
#### Branch Details:
1. **First Branch:**
- Voltage (\( V_3 \)): 9 V
- Resistor (\( R_3 \)): 60 Ω
- Current (\( I_3 \)): 0.15 A
2. **Second Branch:**
- Voltage (\( V_2 \)): 9 V
- Resistor (\( R_2 \)): 10 Ω
- Current (\( I_2 \)): 0.9 A
3. **Third Branch:**
- Voltage (\( V_1 \)): 9 V
- Resistor (\( R_1 \)): 20 Ω
- Current (\( I_1 \)): 0.45 A
#### Total Circuit:
- Source Voltage (\( V_0 \)): 9 V
- Total Current (\( I_0 \)): 1.05 A
The circuit confirms these values as part of an educational verification process, indicated by the "CONFIRM" button. This illustrates how each component functions under the given parameters, showcasing fundamental principles of parallel circuits where the voltage across each branch remains constant, while the total current is the sum of currents through each branch.
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