Find I, in the circuit Ix- 10 mA I, 2 mA 2. Determine Vo- & VI 12 kI
Find I, I, and I, in the network in Fig. P2.13. 3 mA 1 12 mA w 4 mA 1. 2 mA Figure P2.13 Ix=-9 mA. ly=-10 mA, Iz=2 mA Ix-9 mA.ly=10 mA, Iz=-2 mA Ix- 9 mA. ly=-10 mA, Iz=-2 mA Ix-9 mA. ly=10 mA. Iz=2 mA
The phasor current is in the circuit shown is 25 2(0°) [mA] a) Find phasors I, and I. b) If o=1500 [rad/s], write expressions for i(t), is(t) and ic(t). 1000 12 -- 1000 12 1 j250 12 lat 500 13 0 50 V 2000 2 a) Ig = le = b) Box your answers.
10. Find ix when is 2 sin 5t (A) is supplied to the circuit in Figure.
1. For the following circuit, solve for i(t) at t>0. 4. For the following circuit, solve for i(t) at t 0 101 itr) 40 0 25H . For the following circuit, solve for i(t) at t>0. 2. For the following circuit, solve for vit) at o 6? 1.50 10? 201 12? 0.1F 120V 1.25 H 3. For the following circuit, solve for vit) at o 6. In the following circuit, solve for vit) for PO. 120 son 3 mA 12...
1/2 points (graded) Suppose the following two circuits are equivalent: Rth th and that Ix-5 mA and ly-6 mA. The value of Veh (volts) is 47 The value of Rth (kohms) is 15 Suhmit
The phasor current lb in the circuit shown in figure below is 25 <0 mA. Find la /e, and I a, c, 8- 1000 ? )250 (2 -/1000 (2 500 ? 2000 ?
1) Find Io in the circuit 2 V 2 mA Io
4. Find V, from following circuit using Norton's theorem only. 12V 2 ΚΩ 3 mA 4 ΚΩ 12 ΚΩ 4 ΚΩ
For the circuit below lambda is about 0, k is 32 mA/V^2. Find a value for Rs1 so that Id=1mA, if voltage threshold, Vt= 0.75V. Is the FET in the active operating region? Assuming that Id= 1mA as in part 1, estimate the midband voltage gain. (Capacitors are replaced with short circuits) If Rs1 is the same as you found in part 1 and k = 32 mA/V^2, BUT Vt=0.65V, estimate Id. Repeat part 2 if C3 is removed. Repeat...