1. Find the total impedance Zt through terminal a-b
2. Determine the current through the capacitor.
1. Find the total impedance Zt through terminal a-b 2. Determine the current through the capacitor....
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
Question 8 E-SV/ Find the total impedance, ZT a. b. Determine the supply current, IT. c. Calculate I1, 12, and 13
Consider the network 1. Determine the Zt 2. Find I 3. Calculate VR and VC. 4. Find P and Power Factor R HE = 20 sinf f2 kHz 0.47 kO 0.1 PUF Fig. 3.1
Can you please Answer 1 and 2 Thank you! R2 F 1500 Find total impedance, total current and the phase angle between total current and the applied voltage for the given circuit. (10 Points) ZT=1952-12.8°, IT=10.3 12.8mA = 12.8° ZT-4512 6.73'; IT= 34.92 6.73mA; 0 6.73 ZT=68.92-31.7°0; IT=29.02 31.7"mA; 0=31.7° ZT=195212.8°CIT10.32-12.8°mA; 0 = -12.8° 2. Find the following phasor -2+j0: (10 Points) 22180 1802180 O 2200 18020 22-90
1. Referring to Fig. 1: (12 pts. a. Determine the type of feedback circuit per stage b. The output voltage of the first stage. c. The current flowing through R4. d. The output impedance Zof of the last stage R2 1 KO Vec 15 V А в 15 V F 741C 74106 O G I 1 MA (1 VE -15 V 100 kg 512 Fig. 1 2. Design a 555 timer that free-runs at a frequency of 1 kHz and...
5. Determine the source current (1s) through tbe ciro (Outcome: b) a 0.025 mA b. 2.49 uA 2.49 mA d. 2.49 A 6. Kirchhoff's Voltage Law (KVL) can be stated as a. The sum of the voltage drops around any closed path is zero b. The sum of the voltages into a node is equal to the sum of the voltages out of the node c. The sum of the voltages across all the elements equals the sum of the...
a) Determine the total resistance, RT. (4 points) b) Find the source current Is. (2 points) c) Find voltages and currents for each resistor and fill in Table 1. (14 points) R2 R3 1.5k 1k R4 3.3k R 1 2k R7 4.7k 10V R5 8.2k R6 5.6k Figure 1 Table 1 VR4 IR4 R3 R3 IR1 R2 R2 R1 Table 1 Cont'd V R7 R7 R6 R6 V R5 R5
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find the voltage vo (t) across the capacitor for t 2 0 Figure P15.3 50 mH 1 kS2 V. Volt) T 0.1 μF The circuit in the s-domain is shown below. R2 Va 1k 0.05s 1/(sC)-1e7/s Vo R1 2k V (0-ys 5/s 1/s 1 format long; 2...
1. The current through a 0.1-H coil is provided. Find the sinusoidal expression for the voltage across the coil. Sketch the v and i curves. a. i = 10 sin 377t b. i = 7 sin(377t - 70°) 2. The voltage across a 1-micro F capacitor is provided below. What is the sinusoidal expression for the current? Sketch the v and i curves. v = 30 sin 400t 3. For the following pairs of voltages and currents, determine whether the...
1. In the figure below, what is the correct equation to find the value of capacitor C to be connected in parallel with the source Vg to improve the power factor angle of the circuits from oto 02. (2 Marks) the - 230 v.co 10 a.) c= P(tano, - tano,) c) c= P(tand, -tano,) wV av b.) c="(tano, -tane) d) c= P(tand,+ tano.) 2. The type of power which is actually consumed or utilized in an AC circuit is called:...