AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 200 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 33.531 V ∠-0.39 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 30 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 7.776 Ω ∠-0.94 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 600 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 148.87 V ∠1.5 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 50 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 20 V ∠-0.1 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 80 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 12 V ∠0 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 700 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 10.803 kV ∠-0.02 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 40 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 1.0944 kΩ ∠-0.07 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 20 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 81.985 V ∠0.05 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 50 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 8.8 V ∠-1.9 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 50 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 12.699 V ∠-2.57 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 1000 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 15 V ∠1.1 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 30 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 339.2 mΩ ∠-1.55 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 600 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 90 V ∠0 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 1000 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 6.1227 kΩ ∠0.03 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 80 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 368.27 Ω ∠1.11 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 700 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 3.2212 Ω ∠-1.3 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 100 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 187.58 mV ∠-2.24 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 403.41 mΩ ∠2.46 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 20 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 656.82 mV ∠2.38 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 80 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 7 V ∠1.4 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 90 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 243.08 V ∠0.03 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 77 V ∠3 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 200 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 8 Ω ∠-1.3 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 400 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 1.0216 kV ∠-0.64 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 30 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 731.24 mΩ ∠2.56 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 50 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 22.013 Ω ∠0.03 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 800 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 448.2 Ω ∠0.03 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 200 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 108.06 Ω ∠-0.03 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 20 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 158.95 Ω ∠-1.22 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 900 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 7.2 Ω ∠2.4 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 40 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 189.2 V ∠-1.26 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 900 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 11.389 V ∠-3.06 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 300 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 19.299 Ω ∠0.27 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 40 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 151.62 Ω ∠-1.33 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 67.381 Ω ∠-1.34 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 6.3 Ω ∠1.9 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 70 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 126.49 mΩ ∠-3.07 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 80 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 44.333 V ∠1.32 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 600 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 7.5369 Ω ∠1.54 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 900 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 1.1026 V ∠2.69 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 800 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 4.7022 V ∠2.01 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 300 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 82.5 V ∠0 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 275.86 Ω ∠0.21 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 80 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 400.82 V ∠0.85 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 80 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 4.1525 Ω ∠0.27 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 952.91 Ω ∠0.3 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 90 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 100 V ∠0.6 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 100 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 81.9 Ω ∠0 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 20 Hz. Determine the Thevenin equivalent impedance for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 1.0291 Ω ∠-1.52 rad

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AC Thevinin Equivalent The AC voltage source in the circuit below oscillates at 60 Hz. Determine the Thevenin equivalent voltage for the circuit shown below between the nodes A and B. ]]>
0.0000000 0 true false abc 2.4 V ∠-0.7 rad

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