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For the circuit shown in figure below, apply Kirchhoff's laws to paths ABEFA an BCDEB to find :- ii) iii) iv) The currents I₁, I₂ and 13. (Answer: I₁ = 0.27A, 1₂ = -2.16A, I₂ = -1.89A] The voltage drop across R3. (Answer: V₁3² = 1.36V) The power r consumed by R₂. R3 The voltage between point B and point E. (Answer: VBL = 8.65V) R₁ E₁ A F 252 20V (Answer: P₂ = 14.29W) R2 452 B $4₂ 5Ω R₂502 R3 E₂ E 10V R4 352 R510 D 1,500=

For the circuit shown in figure below, apply Kirchhoff's laws to paths ABEFA an BCDEB to find :- ii) iii) iv) The currents I₁, I₂ and 13. (Answer: I₁ = 0.27A, 1₂ = -2.16A, I₂ = -1.89A] The voltage drop across R3. (Answer: V₁3² = 1.36V) The power r consumed by R₂. R3 The voltage between point B and point E. (Answer: VBL = 8.65V) R₁ E₁ A F 252 20V (Answer: P₂ = 14.29W) R2 452 B $4₂ 5Ω R₂502 R3 E₂ E 10V R4 352 R510 D 1,500=

Introductory Circuit Analysis (13th Edition)
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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For the circuit shown in figure below, apply Kirchhoff's laws to paths ABEFA and BCDEB to find :- The currents I₁, I₂ and 13. (Answer: I₁ = 0.27A, I₂ = -2.16A, I3 = -1.89A) The voltage drop across R3. (Answer: V₁ = = 1.36V) R3 The power consumed by R₂. (Answer: P2 = 14.29W) The voltage between point B and point E. (Answer: VBL = 8.65V) i) ii) iv) R₁ E₁ A F 252 20V 452 m R35.02 E₂ E 10V R 3 3Ω R510 D 1,500 x 1
Transcribed Image Text:For the circuit shown in figure below, apply Kirchhoff's laws to paths ABEFA and BCDEB to find :- The currents I₁, I₂ and 13. (Answer: I₁ = 0.27A, I₂ = -2.16A, I3 = -1.89A) The voltage drop across R3. (Answer: V₁ = = 1.36V) R3 The power consumed by R₂. (Answer: P2 = 14.29W) The voltage between point B and point E. (Answer: VBL = 8.65V) i) ii) iv) R₁ E₁ A F 252 20V 452 m R35.02 E₂ E 10V R 3 3Ω R510 D 1,500 x 1
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