Fig. 4.4 For Example 4.2
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Transcript of Fig. 4.4 For Example 4.2
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.4 For Example 4.2
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.6 For Example 4.3
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.7 For Example 4.3; a) calculating v1, (b) calculating v2.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.15 Transformation of independent sources.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.16 Transformation of dependent sources.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.17 for Example 4.6
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.18 for Example 4.6
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.23 Replacing a linear two-terminal circuit by its Thevenin equivalent: (a) original circuit, (b) the Thevenin equivalent circuit.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.23 Replacing a linear two-terminal circuit by its Thevenin equivalent: (a) original circuit, (b) the Thevenin equivalent circuit.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.24 Finding VTh and RTh.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.25 Finding RTh when circuit has dependent sources
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.37(a) Original circuit, (b) Norton equivalent circuit.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.38 Finding Norton current IN.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.48 The circuit used for maximum power transfer.
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ELECTRICELECTRICCIRCUITSCIRCUITS
F U N D A M E N T A L S O FCHARLES K. ALEXANDERMATTHEW N.O. SADIKU
McGraw-Hill © The McGraw-Hill Companies, Inc.
Fig. 4.49 Power delivered to the load as a function of RL.