D. A 1.5-k Q, ½-W resistor is in series with a 470- Q, 4-W resistor. What is themaximum voltage that can be applied to this series circuit withoutexceeding the wattage rating of either resistor?ver:E. In Fig. 2.26, solve for RT, V1 , V3 , V4 , R2 , R3 , PT , P1, P2 , P 3, and P4.R, = 3.3 kRI = 1.2 mAV = 12 VV, = 36 VR = 4.7 k2R.Figure 2.26. Series Circuit F. In Fig. 2.27, solve for I, RT , VT , V2, 3, V4, R4 , P 1 , P2 , P3 , and P4 .R, = 1 kR = 1.8 kfV, = 20 VP, = 2.4 WR.R = 1.2 kf)Figure 2.27. Series Circuit

Given : two resistance are connected to in series and maximum voltage can be applied at given power…

D. A 1.5-k Q, ½-W resistor is in series with a 470- Q, 4-W resistor. What is the maximum voltage that can be applied to this series circuit without exceeding the wattage rating of either resistor? ver:

D. A 1.5-k Q, ½-W resistor is in series with a 470- Q, 4-W resistor. What is the maximum voltage that can be applied to this series circuit without exceeding the wattage rating of either resistor? ver:

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Concept explainers

Star Delta Conversion

Find the input resistance between points A and B of the following resistive network:

Question

D. A 1.5-k Q, ½-W resistor is in series with a 470- Q, 4-W resistor. What is the
maximum voltage that can be applied to this series circuit without
exceeding the wattage rating of either resistor?
ver:
E. In Fig. 2.26, solve for RT, V1 , V3 , V4 , R2 , R3 , PT , P1, P2 , P 3, and P4.
R, = 3.3 k
R
I = 1.2 mA
V = 12 V
V, = 36 V
R = 4.7 k2
R.
Figure 2.26. Series Circuit

F. In Fig. 2.27, solve for I, RT , VT , V2, 3, V4, R4 , P 1 , P2 , P3 , and P4 .
R, = 1 k
R = 1.8 kf
V, = 20 V
P, = 2.4 W
R.
R = 1.2 kf)
Figure 2.27. Series Circuit

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