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Deck 10: Analysis of Phasor Transformed Circuits
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Question
below. 
Question
Use voltage divider rule to find in the ircuit shown below. 
Question
Use nodal analysis to find in the circuit shown below. 
Question
below. 
Question
Question
below. 
Question
Use nodal analysis to find in the circuit shown below. 
Question
Find the Norton equivalent current and the Norton equivalent ipedance between the 
terminals a and b for the circuit shown below. 
terminals a and b for the circuit shown below. Question
Question
Find the Thévenin equivalent voltage and the Thévenin equivalent ipedance 
between the terminals a and b for the circuit shown below. 
between the terminals a and b for the circuit shown below. Question
Find the Thévenin equivalent voltage and the Thévenin equivalent ipedance 
between the terminals a and b for the circuit shown below. 
between the terminals a and b for the circuit shown below. Question
Use mesh analysis to find mesh currents in the circuit shown 
below. 
below. Question
Use current divider rule to in the circuit shown below. 
Question
In the circuit shown below, let 
Question
Find the Norton equivalent current and the Norton equivalent ipedance between the 
terminals a and b for the circuit shown below. 
terminals a and b for the circuit shown below. 
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Deck 10: Analysis of Phasor Transformed Circuits
1
below. no answer
2
Use voltage divider rule to find in the ircuit shown below.
no answer
3
Use nodal analysis to find in the circuit shown below.
no answer
4
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5
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6
below. Unlock Deck
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7
Use nodal analysis to find in the circuit shown below.
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8
Find the Norton equivalent current and the Norton equivalent ipedance between the terminals a and b for the circuit shown below.
terminals a and b for the circuit shown below. Unlock Deck
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9
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10
Find the Thévenin equivalent voltage and the Thévenin equivalent ipedance between the terminals a and b for the circuit shown below.
between the terminals a and b for the circuit shown below. Unlock Deck
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11
Find the Thévenin equivalent voltage and the Thévenin equivalent ipedance between the terminals a and b for the circuit shown below.
between the terminals a and b for the circuit shown below. Unlock Deck
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12
Use mesh analysis to find mesh currents in the circuit shown below.
below. Unlock Deck
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13
Use current divider rule to in the circuit shown below.
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14
In the circuit shown below, let
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15
Find the Norton equivalent current and the Norton equivalent ipedance between the terminals a and b for the circuit shown below.
terminals a and b for the circuit shown below. Unlock Deck
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