follow аpply a parallel circuit (consisting of one current source; Iş and one parallel resistor; Rp) connected to a load resistor, RL. [10] 50 10 0 ww RL R $50 5Ω

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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**Problem Statement:**

2. For the following circuit, apply source transformation to convert the circuit into a parallel circuit (consisting of one current source, \( I_S \), and one parallel resistor, \( R_P \), connected to a load resistor, \( R_L \)). [10]

**Original Circuit:**

- The circuit contains a 10 V voltage source.
- A 5 Ω resistor is connected in series with the voltage source.
- Following this is a junction with a 1 A current source branching off.
- A 10 Ω resistor is in series with the 1 A current source.
- The 5 Ω load resistor, \( R_L \), is in parallel with the 10 Ω resistor and the remaining 5 Ω resistor.
- A thick blue arrow indicates transformation to a new circuit.

**Equivalent Transformed Circuit:**

- The equivalent circuit shows a current source \( I_S \) indicated by a single upward arrow within a circle.
- Two resistors, \( R_P \) and \( R_L \), are in parallel configuration.
- \( R_P \) and \( R_L \) are placed adjacent to each other, both connected to the current source \( I_S \) at the top and bottom nodes.
Transcribed Image Text:**Problem Statement:** 2. For the following circuit, apply source transformation to convert the circuit into a parallel circuit (consisting of one current source, \( I_S \), and one parallel resistor, \( R_P \), connected to a load resistor, \( R_L \)). [10] **Original Circuit:** - The circuit contains a 10 V voltage source. - A 5 Ω resistor is connected in series with the voltage source. - Following this is a junction with a 1 A current source branching off. - A 10 Ω resistor is in series with the 1 A current source. - The 5 Ω load resistor, \( R_L \), is in parallel with the 10 Ω resistor and the remaining 5 Ω resistor. - A thick blue arrow indicates transformation to a new circuit. **Equivalent Transformed Circuit:** - The equivalent circuit shows a current source \( I_S \) indicated by a single upward arrow within a circle. - Two resistors, \( R_P \) and \( R_L \), are in parallel configuration. - \( R_P \) and \( R_L \) are placed adjacent to each other, both connected to the current source \( I_S \) at the top and bottom nodes.
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