Find Io in the circuit in the figure below using nodal analysis. 4 mA 4 mA mA the tolerance is +/-29%
= For the circuit of Fig. 8.27, let io(t < 0) = -1 mA, 1,(t > 0) = 2 mA, R 2.000 Q, R = 3,000 12, and L = 20 mH. a. Find va for t > 0. b. What is the approximate duration of the transient? 6. Sketch va(t). FIGURE 8.27
Question2 35 pts CSLO 9 Vo is V and io is mA in the following circuit. 1000 mV Note: Voltage and current will be three decimal points.
In the circuit given below, R-200. Find Vo and io. 50Ω 10Ω 10Ω 46 250 v (+ 0.2% 5 A The value of vo in the circuit is 14.52 V The value of lo in the circuit is 2420 mA. Hints References eBook & Resources Hint #1
Chapter 3, Problem 3.091 (Circuit Solution) Find Io in the circuit in the figure using mesh analysis. 1V (H ΚΩ 34 ΚΩ 3 mA 2 kΩ _22 6 ΚΩ ΚΑΙ 1 mA S2 ΚΩ Io = mA
Use the supernode technique to find Io in the circuit in the figure below 12/6o v 2? 16? 2? Io (a) Find the real part of Io (b) Find the imaginary part of Io
4. The MOSFET in the circuit given below has Vi- 1 V, kn 0.8 mA/V2, and VA 40 V a) Find the values of Rs, Ro, and Ro so that Io -0.1 mA, the largest possible value for RD is used while a maximum signal swing at the drain of tl V is possible, and the input resistance at the gate is 10 MS2. b) Find the values of gm and ro at the bias point c) If terminal Z...
Chapter 3, Problem 3.022 Find Io in the circuit in the figure using nodal analysis. 1 k 2 2 k2 W- (+2V 31 6V 1.= mA the tolerance is +/-2%
#2. (30p) Initially circuit was de energized + s (ma) 20122HR 10 a) Find v(1) for 0 <<<0.2 and 0.2 st so using sequential-switching method: b) Sketch y(t) using solution (a); c) Find () using the method of superposition of step responses; d) Sketch (1) using solution (c), showing details of how you build the graph; 0.2 (s)
Using nodal analysis, find Io in the circuit in the figure below. 2 28 ? 1? 2/0° A (a) Find the real part of Io. (b) Find the imaginary part of Io