Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Textbook Question
Chapter 9, Problem 3P
Using the superposition theorem, determine the current through the 56
Fig 9.127
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*16. a. Determine the Thevénin equivalent circuit for the net-
work external to the resistor R in Fig. 9.140.
b. Find the current through the resistor R if its value is
20 Ω, 50 Ω, and 100 Ω
c. Without having the Thévenin equivalent circuit, what
would you have to do to find the current through the
resistor R for all the values of part (b)?
R1
R3
R5
20 Ω
12 N
20
E
20 V R2
R4
16 N
R
FIG. 9.140
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Chapter 9 Solutions
Introductory Circuit Analysis (13th Edition)
Ch. 9 - (a) Using the superposition theorem, determine the...Ch. 9 - a. Using the superposition theorem, determine the...Ch. 9 - Using the superposition theorem, determine the...Ch. 9 - Using superposition, find the current l through...Ch. 9 - Using superposition, find the voltage VR3 for the...Ch. 9 - Using superposition, find the voltage V2 for the...Ch. 9 - Using superposition, find the current through R1...Ch. 9 - Using superposition, find the voltage across the...Ch. 9 - a. Find the Thévenin equivalent circuit for the...Ch. 9 - a. Find the Thévenin equivalent circuit for the...
Ch. 9 - a. Find the Thévenin equivalent circuit for the...Ch. 9 - Find the Thévenin equivalent circuit for the...Ch. 9 - Find the Thévenin equivalent circuit for the...Ch. 9 - Find the Thévenin equivalent circuit for the...Ch. 9 - a. Find the Thévenin equivalent circuit for the...Ch. 9 - Determine the Thevénin equivalent circuit for the...Ch. 9 - a. Determine the Thévenin equivalent circuit for...Ch. 9 - For the network in Fig. 9.142, find the Thévenin...Ch. 9 - For the transistor network in Fig. 9.143. a. Find...Ch. 9 - For each vertical set of measurements appearing in...Ch. 9 - For the network of Fig.9.145, find the Thévenin...Ch. 9 - a. Find the Norton equivalent circuit for the...Ch. 9 - a. Find the Norton equivalent circuit for the...Ch. 9 - Find the Norton equivalent circuit for the network...Ch. 9 - Find the Norton equivalent circuit for the network...Ch. 9 - Find the Norton equivalent circuit for the network...Ch. 9 - Find the Norton equivalent circuit for the network...Ch. 9 - Find the Norton equivalent circuit for the network...Ch. 9 - Find the Norton equivalent circuit for the network...Ch. 9 - a. Find the Norton equivalent circuit external to...Ch. 9 - a. Find the value of R for maximum power transfer...Ch. 9 - a. Find the value of R for maximum power transfer...Ch. 9 - a. Find the value of R for maximum power transfer...Ch. 9 - a. Find the value of RL in Fig.9.142 for maximum...Ch. 9 - a. For the network of Fig. 9.147, determine the...Ch. 9 - Find the resistance R1 in Fig.9.148 such that the...Ch. 9 - a. For the network in Fig.9.149, determine the...Ch. 9 - For the network in Fig. 9.150, determine the level...Ch. 9 - Using Millmans theorem, find the current through...Ch. 9 - Repeat Problem 38 for the network in Fig.9.152....Ch. 9 - Using Millmans theorem, find the current through...Ch. 9 - Using the dual of Millmans theorem, find the...Ch. 9 - Using the dual of Millmans theorem, find the...Ch. 9 - Using the substitution theorem, draw three...Ch. 9 - Using the substituion theorem, draw three...Ch. 9 - Using the substitution theorem, draw three...Ch. 9 - a. For the network in Fig. 9.159(a), determine the...Ch. 9 - a. For the network of Fig.9.16(a), determine the...Ch. 9 - a. Determine the voltageV for the network in...Ch. 9 - Using PSpice or Multisim and the superposition...Ch. 9 - Using PSpice or Multisim, determine the Thévenin...Ch. 9 - a. Using PSpice, plot the power delivered to the...Ch. 9 - Change the 300 resistor in Fig. 9.145 to a...
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- Is the resistance in the end equal to R=17/8? I saw the written solution, but the resistance was calculated 16/2?arrow_forwardFor the network of Fig. 9.145, find the Thévenin equivalent circuit for the network external to the 300 N resistor. 300 N 6 VE 4 " 2 V FIG. 9.145 Problem 21.arrow_forward20. For each vertical set of measurements appearing in Fig. 9.144, determine the Thévenin equivalent circuit. Network V) = 20 V Network D= 1.6 mA (a) Network V) = 60 mV E = 0 V Network O) = 2.72 k. (b) Network V) = 16 V Network 8 V R= 2.2 kN (c) FIG. 9.144arrow_forward
- Example 9 Use the principle of superposition to find in the circuit shown in the circuit below 10 V + 5Ω www ++ 0.4 VA + υ Σ20 Ω V100 (15 A 2 isarrow_forward18. Find the Norton equivalent circuit for the portions of the networks of Fig. 9.135 external to branch a-b. 20 300 12 1 120 (): 100 2 A 12 V 6V- 72 V 2V (b) FIG. 9.135arrow_forwardHW • 1- a. For the network of Fig 9.136 determine the value of R for maximum power to R b. Determine the maximum power to R. c. Plot a curve of power to R versus R for R equal to 1, 14, 1 14 and 2 times the value obtained in part (a). 3A R n 24 V FIG. 9.136arrow_forward
- For the circuit shown in Fig. 9, the relationship between Vx and I is given in Table -4 below. Find the Thevenin's equivalent for the D.C. network.arrow_forward21. For each network of Fig. 9.130, find the value of R for maximum power to R, and determine the maximum power to R for each network. 10Ω 60 20 ЗА 25 1 72 V 20 V- 30 in (b) FIG. 9.130arrow_forwardQ3/ / Using Superposition theorem, find V, in the circuit of Fig.below. - Vo + -j20 20 j40 ww-m 42 60/0* V E ) 5/90° A -130arrow_forward
- • 1- a. For the network of Fig. 9.136, determine the value of R for maximum power to R. b. Determine the maximum power to R. c. Plot a curve of power to R versus R for R equal to . 1, 14. 14, 14, and 2 times the value obtained in 1(SA R4n E 24 V part (a). FIG. 9.136arrow_forwardHW • 1- a. For the network of Fig. 9.136, determine the value of R for maximum power to R b. Determine the maximum power to R. c. Plot a curve of power to R versus R for R equal to . 1,14 14, 14, and 2 times the value obtained in part (a). SA Rn 24 V FIG. 9,136arrow_forward13. Find the Thévenin equivalent circuit for the network exter- nal to the resistor R for the network in Fig. 9.137. 0+ 16 V 2.2 k2 8 mA R 5.6 k2 FIG. 9.137 Problem 13.arrow_forward
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