Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Chapter 9, Problem 5P
Using superposition, find the voltage
Fig.9.129
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Z8 please help with my reviewer, give me a brief solution and correct and answer thank you
9.35 For the following network determine:
a) The value or R that will draw maximum power from the source.
b) Determine the value of the maximum power drawn by R.
R 2.4 N
5A R{ 24 N R
20 V
31. a. Find the value of R for maximum power transfer to R forthe network of Fig. 9.133.b. Determine the maximum power of R
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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- 33. a. Find the value of R for maximum power transfer to R forthe network of Fig. 9.138.b. Determine the maximum power to R.arrow_forwardDetermine the equivalent resistance between terminals a and b. 9.6540 Q 8.2756Q 9.2715Q O 8.3025 Q R5 5 Ohms .R1 www 1 Ohm R2 2 Ohms R6 6 Ohms R3 3 Ohms www R4 4 Ohmsarrow_forward9.10 Find the Thevenin equivalent circuit for the network external to the resistor R. Find the power delivered to R when R=2k2 and R=100k2. 33 kn 120 mA 2.4 k 1.2 knarrow_forward
- 33. a. Find the value of R for maximum power transfer to R for the network of Fig. 9.138 O. b. Determine the maximum power to R. 6Ω R 2Ω 2 A 3Ω Fig. 9.138arrow_forwardd) Terminal A is negative with respect to ter- minals C and D. TEST YOUR KNOWLEDGE Refer to the voltage divider circuit shown in Fig. 9-3. The source voltage is 100Vde and the ammeter indicates a current of .02Ade. Resistor R, is 3000 ohms and the voltage Ec.p between 1. terminals C and D is (30Vdc. Calculate the following: 3. Refer to Fig. 9-1. If the value of resistor Rs was changed to 6.5 kilohms, calculate the following: a) R, = b) E4-5 " Vdc circuit current I c) Eg.c =. Vde d) R; = mAde I=.02 A Vdc 30y de Oc 100vde Vdc Vdc Fig. 9-3 4. The sum of the voltage drops in a series circuit is equal to 2. State whether the following statements regarding Fig. 9-3 are true or false. a) Terminal B is negative with respect to ter- 5. State the algebraic form of Kirchhoff's Law minal A. b) Terminal C is positive with respect to ter- minal B. c) A voltmeter connected between terminals A and C would measure 40Vde,arrow_forward22. a. Find the Norton equivalent circuit for the network externalto the resistor R in Fig. 9.133.b. Convert the Norton equivalent circuit to the Thévenin form.c. Find the Thévenin equivalent circuit using the Théveninapproach and compare results with part (b)arrow_forward
- PROBLEM #7 FOR THE NETWORK THE NETWORK HAS AN EQUIVALENT RESISTANCE USE A S-Y CONVERSION. 100% m 4252 MR 2002 W 682 SELECT A VALUE OF R SUCH THAT OF 70.65.arrow_forwardGiven the circuit, use mesh analysis to compute. (A) current through R1, current through R2 and current through R3. (B) voltage across R1 and R2.arrow_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 part (a). R1 SA R40 I 24 V FIG. 9.136arrow_forward
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