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Problem 4
Find all of the node voltages in the circuit. |
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AC Circuits >
Phasors >
Nodal Analysis
Keywords:
Length: 3:01
Date Added: 2007-07-31 13:20:55
Filename: ac_phasors_nodal_ex4_eng
ID: 410
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Problem 5
Find the indicated currents expressed as cosine functions. Use the node voltage analysis method first. |
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AC Circuits >
Phasors >
Nodal Analysis
Keywords:
Length: 7:19
Date Added: 2007-07-31 14:29:03
Filename: ac_phasors_nodal_ex5_eng
ID: 411
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Problem 6
Use nodal analysis to determine which impedance element has the lowest voltage magnitude across its terminals. |
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AC Circuits >
Phasors >
Nodal Analysis
Keywords:
Length: 6:01
Date Added: 2007-07-31 15:16:16
Filename: ac_phasors_nodal_ex6_eng
ID: 412
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Problem 1
Find the steady-state sinusoidal voltages v1(t) and v2(t) using node voltage analysis. |
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AC Circuits >
Phasors >
Nodal Analysis
Keywords:
Length: 6:30
Date Added: 2007-08-03 14:30:09
Filename: ac_phasors_nodal_ex1_eng
ID: 450
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Problem 2
Find the steady-state sinusoidal voltages v1(t), v2(t), and v3(t) using node voltage analysis. |
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AC Circuits >
Phasors >
Nodal Analysis
Keywords:
Length: 7:29
Date Added: 2007-08-03 14:30:18
Filename: ac_phasors_nodal_ex2_eng
ID: 451
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Problem 3
Find the steady-state sinusoidal voltages v1(t) and v2(t) using node voltage analysis. |
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AC Circuits >
Phasors >
Nodal Analysis
Keywords:
Length: 5:15
Date Added: 2007-08-03 14:30:24
Filename: ac_phasors_nodal_ex3_eng
ID: 452
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