Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Transcribed Image Text:*25. For the combination network of Fig. 7.97, determine:
a. VB and VG-
b. Vg.
c. IE, Ic, and Ip.
d. Iв-
e. Vc, Vs, and Vp-
f. VCE-
g. VDs-
2.2 k2
40 k2
OVD
Dss 6 mA
Vps
Vp =-6 V
Va.Va
Vy.Vc le
VCE
B = 100
10 k2
VEE
1.2 k2
FIG. 7.97
Problem 25.
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- x Bb PowerPoint Presentation 1 Q Read aloud Ask Bing Al f2 W 22. For the network in Fig. 7.85: a. prod-fleet02-xythos.content.blackboardcdn.com/608c5bc47e949/2921390?X-Blackboard-S3-Bucket-learn-us-east-1-prod-fleet01-xythos&X-Blackboard-Expiration=1696971600000&X-Blackboard... b. C. d. X # f3 3 Bb 2921390 E C $ + Vi R₁ ww 16Ω R₂ www 8 Ω Determine RT by combining resistive elements. Find V1 and V4. f5 do X % Calculate 13 (with direction). Determine Is by finding the current through each element and then applying Kirchhoff's current law. Then calculate RT from RT=E/Is 13 RT 5 Q Search R3 www 4Ω +/1/1 E Digital Resources for America - + R T 32 V < 16 - 6 + V₁ RA www 32 Ω R5 www 16 Ω f7 2 of 5 QCD & Y st X I +₁₁ lap f8 Derivative of xy = cot(x) 90 * つ 8 fg O X K f10 *Pcounter EveryonePrint-Login xais O f11 U F12 + [ 40 $ }arrow_forwardneed help for homework, simple explanation are appreciatedarrow_forward14. For the network of Fig. 7.86, Vp = 12 V. Determine: a. Ip. b. Vs and Vps- c. Vg and VGs. d. Vp.arrow_forward
- Given VDS = 4 V for the network of Fig. 7.89, determine: a. IDb. VD and VS c. VGarrow_forward2. For the fixed-bias configuration of Fig. 7.76, determine: a. Ip, and VGS, using a purely mathematical approach. b. Repeat part (a) using a graphical approach and compare results. c. Find VDs, VD, VG, and Vs using the results of part (a). 16 V -3 V 2.2 k2 1.2 M2 = 10 mA Ipss Vp =-4.5 V Vaso FIG. 7.76arrow_forwardTextbook Question BA Chapter 7, Problem 3P Determine RT for the networks in Fig. 7.66. RT www 492 402 (a) www 4 Ω 10 Ω Fig. 7.66 Problem 3. Fig. 7.66 402 RT www 10 Ω (b) 10 Ω www 10 Ω RT U.O 10 ΩΣ (c) www 1.2 Ω 8.20arrow_forward
- *11. For the series-parallel network of Fig. 7.74: R2 R6 a. Find the current I. b. Find the currents I and Ig. c. Find the current Ig. d. Find the voltage Vab 6Ω V 19 at Ro 60 1s R1 10 Ω 80 V 4Ω R = 40 Rs8N R20 FIG. 7.74 Problem 11.arrow_forward7.2 Fixed-Bias Configuration 1. For the fixed-bias configuration of Fig. 7.75: a. Sketch the transfer characteristics of the device. b. Superimpose the network equation on the same graph. c. Determine Ip, and Vpsg d. Using Shockley's equation, solve for Ip, and then find Vpsg. Compare with the solutions of part (c). 14 V 1.8 kn IDQ Ipss = 12 mA Vpso Vp = -4 V 1 M2 1.5 V FIG. 7.75arrow_forward33. For the network of Fig. 7.102, determine: a. Ipo and VGS0 b. VDs- с. Vр. o -16 V 2 kΩ 1 M2 VGS (Th) = -3 V ID (on) = 4 mA VGS (on) = -7 V FIG. 7.102 Problem 33.arrow_forward
- Combination networks Answer number 25 onlyarrow_forwardCH. 7 6. For the circuit board in Fig. 7.66: a. Find the total resistance R, of the configuration. Ans. R¡ = 0.8 k2 b. Find the current drawn from the supply if the applied voltage is 48 V. Ans. Is 60 mA c. Find the reading of the applied voltmeter. Ans. V 19.2 V 6.8 k2 1.2 kfl 3.3 kf 2 kf2 RT 48 V 2.4 kfarrow_forward
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