Using Kirchhoff's rules, find the following. (E₁ = 71.0 V, E₂ = 62.0 V, and 3 = 78.2 V.) 4.00 ΚΩ R3 b IR2 E₁ = R₂ C E₂ 2 2.00 ΕΩ R₁ (a) the current in each resistor shown in the figure above X IR1 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA 3.00 ΚΩ X IR3 You appear to have neglected the current passing through the 2.00-k resistor. mA mA d Es (b) the potential difference between points c and f magnitude of potential difference point at higher potential C
Using Kirchhoff's rules, find the following. (E₁ = 71.0 V, E₂ = 62.0 V, and 3 = 78.2 V.) 4.00 ΚΩ R3 b IR2 E₁ = R₂ C E₂ 2 2.00 ΕΩ R₁ (a) the current in each resistor shown in the figure above X IR1 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA 3.00 ΚΩ X IR3 You appear to have neglected the current passing through the 2.00-k resistor. mA mA d Es (b) the potential difference between points c and f magnitude of potential difference point at higher potential C
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Using Kirchhoff's rules, find the following. (E₁ = 71.0 V, E₂ = 62.0 V, and 3 = 78.2 V.)
4.00 ΚΩ
R3
b
IR2
E₁
=
R₂
C
E₂
2
2.00 ΕΩ
R₁
(a) the current in each resistor shown in the figure above
X
IR1 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of
the circuit. mA
3.00 ΚΩ
X
IR3
You appear to have neglected the current passing through the 2.00-k resistor. mA
mA
d
Es
(b) the potential difference between points c and f
magnitude of potential difference
point at higher potential
C
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