Basic Engineering Circuit Analysis
11th Edition
ISBN: 9781118539293
Author: J. David Irwin, R. Mark Nelms
Publisher: WILEY
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Chapter 8, Problem 61P
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8.7 Find the voltage v, in the circuit of Figure P8.7.
12 k2
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2 ΚΩ
6 kΩ
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11 V
4 k2
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8.19 Show that the circuit of Figure P8.19 is a
noninverting summer.
R2
V3
V2
RF
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1-For the circuit shown in Fig. . find Vdc PIV.
01
120V
60HZ
R 680
02
19
Chapter 8 Solutions
Basic Engineering Circuit Analysis
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- EXAMPLE 8.22 Determine the nodal voltages V1 and V2 of Fig. 8.51 using the concept of a supernode. R3 101 E V1 V2 12 V 6 A () R40 R20 4 Aarrow_forwardTwiddle factor is very essential to compute the DFT of any given sequence. Please show me how to find out the value of the following twiddle factor: W82.arrow_forwardFind the current i in the circuit of Figure P8.6. + 12 V 2Ω ΜΕ 6Ω ΑΜΕ + 3 Ω ΜΕarrow_forward
- Ice 12 Q5. Employ the network in (fig. 8) to find Ico,VCEQ, Vc, VE and Icsat. UCC - LC.. I - 12+ Ic Pc + VC+ IFRE RETRE 0.000012.26 -2+5 (18) + VB** UB 2- 6.13 C₂ Apprauni Approc VBE.VB-VE VE về VBE 46 Appar V IxR 9.85 R₂ 180A F 2.81 2.3 Fig. 8 BC V V 127 Rc $2.240 C₂ ca Val B = 100 2- 2, IgRBU IB: 1.3 2arrow_forward8.20 For the circult of Figure P8.20, derive the expression for vout - R4 ww R3 out R, R1 R;= R, = R3=R4 v = 4 V; v,= 5 Varrow_forwardFor the circuit shown in Fig Q2, determine the cupfent (lo) and the voltage (Vo) using the basic laws or any other suitable method. 8.52 -1252 J₁ + 2/0° A 652 wwww + Vo j4 10/30° Varrow_forward
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