R6 10k RO R2 R4 560 6.8k 5.6k V1 R1 R3 R5 1000 3.3k 2.2k 6V

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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What is the KVL equation of i1 to i4 on this circuit

This is a circuit diagram featuring a simple resistive network powered by a 6V voltage source (V1). The circuit contains six resistors labeled R0 through R6, each with specified resistance values expressed in ohms (Ω).

### Components:

1. **Voltage Source (V1):**
   - Voltage: 6 volts (V)

2. **Resistors:**
   - **R0:** 560 Ω
   - **R1:** 1000 Ω (1 kΩ)
   - **R2:** 6800 Ω (6.8 kΩ)
   - **R3:** 3300 Ω (3.3 kΩ)
   - **R4:** 5600 Ω (5.6 kΩ)
   - **R5:** 2200 Ω (2.2 kΩ)
   - **R6:** 10,000 Ω (10 kΩ)

### Circuit Description:

- The voltage source (V1) is connected in series with R0.
- Following R0, the circuit branches into two parallel paths.
  - The first path contains R1 and R2 in series.
  - The second path contains R3, R4, and R5 in series.
- After these parallel paths, the circuit branches recombine and lead to R6.
- R6 then connects back to the negative terminal of the voltage source, completing the circuit.

This resistive network exemplifies the use of both series and parallel resistor combinations and can be used to illustrate concepts such as Ohm's Law, equivalent resistance calculations, and voltage/current division in an educational setting.
Transcribed Image Text:This is a circuit diagram featuring a simple resistive network powered by a 6V voltage source (V1). The circuit contains six resistors labeled R0 through R6, each with specified resistance values expressed in ohms (Ω). ### Components: 1. **Voltage Source (V1):** - Voltage: 6 volts (V) 2. **Resistors:** - **R0:** 560 Ω - **R1:** 1000 Ω (1 kΩ) - **R2:** 6800 Ω (6.8 kΩ) - **R3:** 3300 Ω (3.3 kΩ) - **R4:** 5600 Ω (5.6 kΩ) - **R5:** 2200 Ω (2.2 kΩ) - **R6:** 10,000 Ω (10 kΩ) ### Circuit Description: - The voltage source (V1) is connected in series with R0. - Following R0, the circuit branches into two parallel paths. - The first path contains R1 and R2 in series. - The second path contains R3, R4, and R5 in series. - After these parallel paths, the circuit branches recombine and lead to R6. - R6 then connects back to the negative terminal of the voltage source, completing the circuit. This resistive network exemplifies the use of both series and parallel resistor combinations and can be used to illustrate concepts such as Ohm's Law, equivalent resistance calculations, and voltage/current division in an educational setting.
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