Determine the frequency that causes the equivalent impedance Zeq in the given circuit to be purely...
Problem 3) Find the equivalent impedance for the network shown Zeq→ when the frequency f = 500 Hz. 3312 7100uF 30.1 mH f = 500 Hz Problem 4) Repeat the previous problem using a frequency of f = 5000 Hz. Zeq→ 332 +100 uF 30.1 mH f = 5000 Hz
please show steps. thank you! What is the equivalent impedance of this circuit at a frequency of 100 rad/s. 100 mH 000 10 22 a. Zeq = (10+j10)12 b. Za = (5+ j5)22 C. Zeq = (10+ j0.1992 d. Z g = (0.1+j10)m12 e. Za =(5+j50)2
(10 points) Text, Problem 4.65. Note: the problem asks to find the cyclical frequency, so be sure that the units on your answer are Hertz and not radians/sec 4.65 Find the frequency that causes the equivalent impedance Zog in Figure P4.65 to be purely resistive. 152 1 mH eq Figure P4.65
For the below circuit, a) Determine the equivalent impedance of the following circuit at frequency of 20Hz b) Calculate the currents I, IR and IC if a voltage of 24V at 20Hz is applied to the input. c) Draw the phase diagrams of currents I, IR and IC . 80Ω 100μF Figure 4
Find the Norton equivalent for the given circuit at terminals a-b. Given -2 A. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees 10Ω /10 Ω ! Norton's equivalent current IN Norton's equivalent impedance Zeq Find the Norton equivalent for the given circuit at terminals a-b. Given -2 A. Please report your answer so the magnitude is positive and all angles are in the range...
Determine the voltage across R2 in the given circuit. (Calculate the direction in radians and round the final answer to two decimal places.) Given: Kt) = 20 cos(533.33) A, R1 = 9.2 Ω, R2 = 34 Ω, L = 15 mH, and C-117F i() 2 The voltage across R2 in the given circuit is VR2(t) = | cos (533 33 ) V
Problem 9.24 PSpice Multisim Part A For the circuit shown in (Figure 1), find the frequency at which the impedance Zab is purely resistive. Suppose R = 400 22 L = 350 mH and C = 50 uF. Express your answer using three significant figures.Part B Find the value of Zab at the frequency of Part A. Express your answer to two significant figures and include the appropriate units.
Please do all parts and show work, thank you! 7. 3 mH Determine the equivalent impedance, Zeq, of the circuit. Write your answer in rectangular form. (3 pes) 4cos(1000+459 v O s 5: 1 mF Zaorson 22: jwej (COX 3)-33 zce (1000/12.3. Zoo Za + ZL + Zc Sch+j3 cm + -j Zeq = 5 + je on I mi 8. Solve for v.(t). Write your answer in the time domain. (6 pts) 312 102 cos(10') v Y () 1012...
Determine the equivalent inductance Leg at terminals a-b of the given circuit, where L 27 mH. 10 mH 60 mH 20 mH a o o b 30 mH The equivalent inductance Leg at terminals a-b of the circuit is
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...