8a. Using Kirchhoff's rules, calculate the current I₁ in resistor R₁, using the directions indicated in the figure below. Assume that R₁ = 2.00k, R₂ = 3.00kS2, R3 = 4.00k2, E₁ = 80.0V, E₂ = 75.0V and E3 = 85.0V. C & R3 R₂1₂ d 83 a 8b. Calculate the current I2, in resistor R₂, using the directions shown. 8c. Calculate the current I3, in resistor R3, using the directions shown. 8d. Calculate the magnitude of the potential difference between points c and f.
8a. Using Kirchhoff's rules, calculate the current I₁ in resistor R₁, using the directions indicated in the figure below. Assume that R₁ = 2.00k, R₂ = 3.00kS2, R3 = 4.00k2, E₁ = 80.0V, E₂ = 75.0V and E3 = 85.0V. C & R3 R₂1₂ d 83 a 8b. Calculate the current I2, in resistor R₂, using the directions shown. 8c. Calculate the current I3, in resistor R3, using the directions shown. 8d. Calculate the magnitude of the potential difference between points c and f.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:8a. Using Kirchhoff's rules, calculate the current I₁ in resistor R₁, using the directions indicated in the figure below. Assume that R₁
75.0V and E3 = 85.0V.
b
8.
d
Mr
& R38g
R2312
R₁
8b. Calculate the current I2, in resistor R₂, using the directions shown.
8c. Calculate the current I3, in resistor R3, using the directions shown.
8d. Calculate the magnitude of the potential difference between points c and f.
2.00kΩ, R2
=
3.00kΩ, R3
=
4.00k, E₁ = 80.0V, E₂
=
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