(c) Parallel Resistors Circuit - KCL(i) For the circuit of Figure 2.2a, assume the source-voltage, E = 15V, R₁ = 3.3 kN, R2=2.2 k and R3 = 1.0 k№. Determine the expected currents I, I₁, I2 and 13 as shown inFigure 2.2a. Record your theoretical results in Table 2.3. Determine the sum ΣI = (1₁+ 1₂+13) to verify the KCL law. EVE15VR310-0R₁I (mA)Theory MultiSIMresultresultR₂Figure 2.2a: KCL Parallel CircuitI₁ (mA)Theory MultiSIMresultresultI₂ (mA)Theory MultiSIMresultresultAR₁R₂Figure 2.2b: KCL Parallel Circuit withAmmeter & Voltmeter connectionsTable 2.3: Theoretical and MultiSIM results of the Parallel Circuit in Figure 2.2AI3 (mA)ΣI = (I₁ + 1₂ + 13)Theory MultiSIM Theory MultiSIMresultresult resultresultR3

supply voltage E = 15 V resistances are R1 = 3.3 KΩ R2 = 2.2 KΩ R3 = 1 KΩ measurement of current…

(c) Parallel Resistors Circuit - KCL (i) For the circuit of Figure 2.2a, assume the source-voltage, E = 15V, R₁ = 3.3 k2, R₂ = 2.2 k2 and R3 = 1.0 k. Determine the expected currents I, I₁, I2 and 13 as shown in Figure 2.2a. Record your theoretical results in Table 2.3. Determine the sum ΣI = (1₁ + 12+ 13) to verify the KCL law.

(c) Parallel Resistors Circuit - KCL (i) For the circuit of Figure 2.2a, assume the source-voltage, E = 15V, R₁ = 3.3 k2, R₂ = 2.2 k2 and R3 = 1.0 k. Determine the expected currents I, I₁, I2 and 13 as shown in Figure 2.2a. Record your theoretical results in Table 2.3. Determine the sum ΣI = (1₁ + 12+ 13) to verify the KCL law.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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