FUNDAMENTALS OF CHARLES K ALEXANDER MATTHEW N O

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 7

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 15

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 16

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 17

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 18

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 23

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 24

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 25

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 37(a)

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 38

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 48

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 49

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FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 4 For Example 4. 2 Mc. Graw-Hill 1 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 6 For Example 4. 3 Mc. Graw-Hill 2 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 7 For Example 4. 3; a) calculating v 1, (b) calculating v 2. Mc. Graw-Hill 3 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 15 Transformation of independent sources. Mc. Graw-Hill 4 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 16 Transformation of dependent sources. Mc. Graw-Hill 5 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 17 for Example 4. 6 Mc. Graw-Hill 6 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 18 for Example 4. 6 Mc. Graw-Hill 7 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 23 Replacing a linear two-terminal circuit by its Thevenin equivalent: (a) original circuit, (b) the Thevenin equivalent circuit. Mc. Graw-Hill 8 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 24 Finding VTh and RTh. Mc. Graw-Hill 10 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 25 Finding RTh when circuit has dependent sources Mc. Graw-Hill 11 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 37(a) Original circuit, (b) Norton equivalent circuit. Mc. Graw-Hill 12 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 38 Finding Norton current IN. Mc. Graw-Hill 13 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 48 The circuit used for maximum power transfer. Mc. Graw-Hill 14 © The Mc. Graw-Hill Companies, Inc.

FUNDAMENTALS OF CHARLES K. ALEXANDER MATTHEW N. O. SADIKU ELECTRIC CIRCUITS Fig. 4. 49 Power delivered to the load as a function of RL. Mc. Graw-Hill 15 © The Mc. Graw-Hill Companies, Inc.