We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
1) (20 pts) Find the impedance of the circuit between terminals a and b. 5iΩ a -2j Ω -3j Ω b 10 Ω
What is the total resistance between terminals A and B? R1 50Ω R2 20 Ω R4 10Ω R3 30 Ω R8 R9 R6 90 Ω R5 40 Ω R7 60 Ω
what is the net resistance
between the two terminals A and B?
Find the current through the impedance of 3+j4 and
change the circuit at the terminals A and B by the Thevenin
circuit
Answers Z=2.50+j2.50
V= -50+j50
I= 0.69+j8.27
قلم کی o solo مرگ
For the circuit below, what is the total impedance as seen by the source at 140 Hz? Give your answer in terms of magnitude (ohms) and phase (degrees or radians), 1. Is the circuit more capacitive or inductive? What is the resonant frequency? what is the total current? Give both magnitude and phase-一一 R3 R1 140 Hz C1 V1 0° し1 100mH
Q5: (a) Calculate the Thevenin's Voltage, Veh and Thevenin's impedance, Zsh at the terminals a-b of the circuit shown in Figure-5. [6+6] (b) What value of load impedance Zu which can be connected at terminals a-b for maximum power dissipation in Zu? (c) Calculate the maximum power, Pmax which can be dissipated in Zu 40 (RMS)A -j40 6Ω (RMS) 80 Figure-5
Q5: (a) Calculate the Thevenin's Voltage, Veh and Thevenin's impedance, Zsh at the terminals a-b of the circuit shown...
10
Find the equivalent impedance Zeq = A + B at terminals a-b in rectangular form. What is the imaginary part B? Assume x = 13.7. (Do not give j or a unit to your answer.) 2-12 12 - Ω) j5 22 (LO ob 12 12
Thevenin resistance seen between terminals (a) and (b). Open circuit voltage seen between terminals (a) and (b) 500 Ω RTh ixlt) 1.54 750 Ω 250 Voc
Calculate the total impedance in the following circuit between point A and point B 2 Ohm -j4 Ohms j2 Ohms R3 4 Ohms 2 Ohms j6 Ohms
Q1: What is the total impedance of the circuit?
Q2: At what AC source frequency the voltage and the current in
the circuit are in phase?
C1 PR1 3 N HE 50.0F C2 HE 100nF PR4 V1 30.0V 10.0kHz 0" R1 10KO LT BOOMH R2 ΘΩ PR3 PR2 4 191.736A