For the network of fig. P4, (a) Write the mesh equation(s) (b) Find the mesh current(s)
Find I_o in the network in Fig. P3.31 using nodal analysis.
Spring 2017 Name: 1. (a) Find the transfer function, Go)- v,(s),(s), for the network shown (b) Find the shown below. e ramp response for the given system. (t1 fer function, G(S)-x (G)/F(S) of the translational mechanical system shown below x(t) f, 3. For each of transfer functions shown below, find the oestions of the potes ans Plot them on the 5-plane, Rnd then write an expression for de geterst form of me response without solving for the inverse Laplace tranform....
1-a) [3] Find the Thevenin equivalent of the bias network of the transistor in Fig. 5K 5k ] 2 ) Fig. 1 b) [2] Redraw the circuit with the bias network replaced by its Thevenin equivalent. c) [2] Assume the transistor in the active mode, find the lg current. B = 100.
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...
11. For the network of Fig. 7.74: a. Find the voltages Va, V, and V b. Find the currents /1 and /2. с. 1 kQb 10 kΩ 5 k2 FIG. 7.74 Problem 11.
10) For the network in Fig.: a. Find the total impedance ZT and the admittance YT. b. Find the currents I, 12, and 13. c. Verify Kirchhoff's current law by showing that Is-I+ 12+ 13. d. Find the power factor of the network, and indicate whether it is leading or lagging ZT 15Ω 13
For the network of Fig. 13.8: 80 A R320 FIG. 13.8 (a) Find ly by determining the reading of an ammeter placed between points a and b. V=ZAha) = 40 for I love it natt . 202 (24) = 0.284 A Tu (2A) = 0.276A no :6.42A In=1, + Iz = 6.7IGA lur 1, 0.75A (b) Find Ryby determining the load resistor R, that must be placed between points a and b to establish I= 1/2. I = I. -...
2- Find the Thevenin equivalent circuit for the network shown in Fig. 2, tooking à ab 50 250 100 (Fig.2)
A certain network has an input admittance Y(s). The admittance has a pole at s=-5, a zero at s= -1, and Yoo) = 0.25 S. References eBook & Resources Section Break Difficulty: Medium value: 10.00 points Find Ys). O Y (s) S + 1 (s + 5) O Y (s) = S + 1 4(5 + 5) O Y (s) = S + 1 (2s + 5) O Y (s) 5(8 + 1) 25 + 5)