Problem 12 R1 )2(t) Lt し2 Vs Consider the above circuit, with the voltage source atV0V...
In this circuit, the source voltage is VS = 25 V, and the resistances are: R1 = 10 kΩ, R2 = 18 kΩ, R3 = 2 kΩ, R4 = 20 kΩ. Using the mesh current method, find the mesh currents Ia and Ib (polarities as marked). In this circuit, the source voltage is Vs = 25 V, and the resistances are: R1 = 10 k 2, R2 = 18 k22, R3 = 2 k.22, R4 = 20 k 2. Using...
SIMULATION EXERCISE # 3 Mesh Analysis" Given the following network: R1 V2 2k 5V V1 k R4 Vs volls 12 Tk 3k R3 R5 1. Simulate the above network using Pspice, Choose a value of Vs for the left hand voltage source. Have values for the mesh currents I, and I2 appear on your schematic. By hand calculations use mesh analysis to determine the values of I1 and I2. Show your work SIMULATION EXERCISE # 3 Mesh Analysis" Given the...
1.29 The voltage source of the circuit shown in Fig. P1.29 is given by vs(t) = 25 cos(4 x 104t - 45°) (V). Obtain an expression for il(t), the current flowing through the inductor IR vs() R23 R1 = 20 12, R2 = 30 12, L = 0.4 mH
current controlled voltage source 2i R2 V3 EV1 V2 R1 In the circuit above V1 = 86V,V2=96 V, 11-7AR1:39 ? and R2 : 35 ?. Use nodal analysis to find the voltage at node A in the circuit above. Note the presence of a dependent voltage source V3 Voltage across that source is 2i. i is the current through the resistor R2 and the source V2
BONUS PROBLEM 2 (15 POINTS) Examine the RL circuit below. The voltage source turns on at t = 0 s, and turns off at t = 0.3 ms. Analyze the transient behavior of the circuit. it) S000002 I mH Vs(t), v Vs 1 (ms) (b)
Consider the circuit of Figure 1. The voltage source vs and resistance Rs comprise a circuit model of a function generator. 1. Find the circuit time constant ? for t?0. Assuming that the capacitor is initially uncharged, find and accurately sketch vR(t) and vC(t) for t?0. Calculate vR(t) and vC(t) for t = 0, ?, 2?, 3?, 4?, and 5? seconds. 2. Find the 10-90% rise time of vC(t) (this is the time required for vC(t) to transition from 10%...
*Problem 14.8-31 The input to this circuit is the source voltage, vs(t). The output is the voltage across the inductor, vo(t). 360 22 1.0 F 320 k 2 2 H3 () HW The transfer function of this circuit is 115– Ve where b and care real constants. Determine the values of b and c: b = 0 and Answer *1: the tolerance is +/-2% Answer *2: the tolerance is +/-2% Question Attempts: 0 of 7 used
Consider the circuit below. If R1=102, R2=212, R3=2012, and Is=10 A, Calculate: 1- The currents i1, 12, and i3, and the voltage v (20%) 2- The power absorbed by the resistance R3 (10%) 3- The power delivered by the source Is (10%) + i2 | 413 w R1 Is R2 R3 V -
Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be in steady state and find the Thevenin equivalent between terminals a and b Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be in steady state and find the Thevenin equivalent between terminals a and b
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2, R2=8 K2, R3=5.1 K2, R4=6 KN, R5=14 KN, R6=4.2 KS, RL=10.3 KS, V1=1V, 12=0.5 mA and V3=3.2 V. R6 R1 R5 Vo w + * RL + 12 R2 V1 R3 R4 V3 Answer: OV Using the above circuit, but consider the following component values: R1= 2 K12 R2=8 K2, R3=2.9 K2, R4=6 KI2, R5=10.8 K92, R6=15 KO, RL=10 K2, V1=1V, 12=0.5mA and V3=2V....