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2.23 (A)* Find v in the circuit given in Figure P2.23. 5 k92 i= 10 mA...
Problem 2 4.7 k22 #/ Find the output voltage of the op amp in the circuit at right. For the NMOS, VIn = 1 V and Kn = 0.5 mA/V2. The op amp is ideal. + Suggestion: As always, write down what you know and follow the rules. It's not that hard. 1 k92 Vs = -5 V vo
For the circuit of Fig. calculate /L. FIG. 10 k02 2 k22 12 V 2 k92
Problem 4 a) Find the Norton equivalent circuit external to points “a” and “b” in figure below. b) Find the magnitude and polarity of the voltage across the 100 N2 resistor. 602 16 VO 100 22 80 Ω 8 A 40 Ω 8 V + b Problem 5 Find the Norton equivalent circuit for the network external to the 4.7 k2 resistor in figure below. 3.3 k92 1 k92 1.2 k92 ş 5 mA î 2.2 k92 ww 3.3 k92...
Chapter 3, Problem 3.108 Use mesh analysis to find V, in the circuit in the figure. 7 mA 8 k 2 +6 12k12 Vx 3 12 k22 4 k22 di o Vo = the tolerance is +/-5% Click if you would like to Show Work for this question: none
QUESTION 4 R1 = 2.6 k92 R2 = 1.8 k22 + + 12 V Ge 10 V For the circuit above, find the current through the Ge diode
Find VN, in the op amp circuit given below. 10 pF 60 k92 60 k92 + + v;(t) 20 pF volt) T(s) = V Ns = 1/[(7.2 x 10–13,52 + (2.4 x 10-6)s + 1] T(s) = VNV5 = 1/[(6.2 x 10–12)s2 + (1.0 x 10-6)s + 1] T(s) = V Ns = 1/[(6.2 x 10-12,52 – (1.0 x 10-6)s + 1] O t(s) = VNV5 = 1/[(7.2 x 10-13,52 – 12.4 x 10-6)s – 1]
2.20,2.22,2.29,2.62
6 MA Figure P2.18 2.19 Find 11, and 1, in the network in Fig. P2.19. 12 mA 21. Figure P2.19 2.20 Find Vand V. in the circuit in Fig. P2.20. 2v 8 - 2V + Figure P2.20 2.21 Given the circuit diagram in Fig. P2.21, find the following voltages: V V V V V V V V V and V 8 V 12 V Figure P2.16 17 Find Vw in the circuit in Fig. P2.17. 4V- 12v Figure P2.17...
Given i(t) 3e2 A, find vc(1) for the circuit shown in Figure 7.3. 10 92 i(t) Velt)1/5 F Figure 7.3 Velt)- 30e2 v
Given i(t) 3e2 A, find vc(1) for the circuit shown in Figure 7.3. 10 92 i(t) Velt)1/5 F Figure 7.3 Velt)- 30e2 v
(a) Kirchhoff's rules
using each circuit in the figure
Find currents passing through the resistance.
(b) between points c and f
by calculating the potential difference (Vc-Vf)
which point is higher
Determine the potential.
(c) Provided by batteries
What is the total power?
I 4.00 k22 b d E E, R3 Ez 70.0 V 60.0 V 80.0 V 12 I 11 R2 3.00 k22 2.00 k92 ww R1
Linear operation Problem 7.1 For each of the circuits shown in Figure P7.1 find the value of the voltage Assume that the limits to the output voltage of the opamp are +10 and -10 V. 2 k22 -10 V 10 k92 3k92 5 k 22 (b) Figure P7.1