Use mesh analysis to find the currents through every branch in Figure P3.33. Let R 1 = 10 Ω , R 2 = 5 Ω , R 3 = 4 Ω , R 4 = 1 Ω , V 1 = 5 V , V 2 = 2 A .
Use mesh analysis to find the currents through every branch in Figure P3.33. Let R 1 = 10 Ω , R 2 = 5 Ω , R 3 = 4 Ω , R 4 = 1 Ω , V 1 = 5 V , V 2 = 2 A .
Solution Summary: The author shows the current through every branch in the circuit. The diagram is shown in Figure 1.
Use mesh analysis to find the currents through every branch in Figure P3.33. Let
R
1
=
10
Ω
,
R
2
=
5
Ω
,
R
3
=
4
Ω
,
R
4
=
1
Ω
,
V
1
=
5
V
,
V
2
=
2
A
.
Consider the series-parallel circuit shown in the figure below with various multimeters connected in the circuit. Assum
that XMM1 has been configured in ammeter mode, and XMM2 has been configured in voltmeter mode.
XMM1
R1
1kQ
XMM2
R2
R3
V1
1kQ
1kQ
12V
3.1: Redraw the circuit replacing XMM1 and XMM2 by their equivalent circuit models
3.2: Assume that XMM2 was incorrectly configured in ammeter mode. Redraw the equivalent circuit from 3.1 and
compute the current that would be measured by the ammeter in this scenario.
Hil-
Determine the branch currents, using KVL andloop analysis in the circuit of Figure P3.35.VS2 = VS3 = 110V VS1 = 90 VR1 = 7.9 ΩR2 = R3 = 3.7 ΩRW1 = RW2 = RW3 = 1.3 Ω
Use the Principle of Superposition to
determine the current i through R3 in
the Figure. Let R1 = 100, R2 = 40, R3 =
20, R4 = 20, R5= 20, Vs 10 V, Is = 2A.
ww
VS
R3
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Chapter 3 Solutions
Principles and Applications of Electrical Engineering
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Mesh Current Problems in Circuit Analysis - Electrical Circuits Crash Course - Beginners Electronics; Author: Math and Science;https://www.youtube.com/watch?v=DYg8B-ElK0s;License: Standard Youtube License