Q9Given that you have found the following transfer function for a circuit, H(jw), what is the magnitudeat very high frequencies? (If your answer contains w, you may simply type "w" instead.)J (jw):0jwRC(1-w²LC)+jwRCSave Answer Las010Given that you have found the following transfer function for a circuit, H(jw), what is the phase (inradians) at very low frequencies? (If you answer contains π, you may simply type "pi" instead)pi/2-tan^-1(wRC/(1-(w^2)*LC)Save Answer Lá

The given problem is from magnitude and phase of a transfer function. The solution is given in the…

Q9 Given that you have found the following transfer function for a circuit, H(jw), what is the magnitude at very high frequencies? (If your answer contains w, you may simply type "w" instead.) J (jw) 0 = 010 jw RC (1-w²LC)+jwRC Save Answer Las. Given that you have found the following transfer function for a circuit, H(jw), what is the phase (in radians) at very low frequencies? (If you answer contains π, you may simply type "pi" instead) pi/2-tan^-1(wRC/(1-(w^2) *LC) Save Answer Lá

Q9 Given that you have found the following transfer function for a circuit, H(jw), what is the magnitude at very high frequencies? (If your answer contains w, you may simply type "w" instead.) J (jw) 0 = 010 jw RC (1-w²LC)+jwRC Save Answer Las. Given that you have found the following transfer function for a circuit, H(jw), what is the phase (in radians) at very low frequencies? (If you answer contains π, you may simply type "pi" instead) pi/2-tan^-1(wRC/(1-(w^2) *LC) Save Answer Lá

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter23: Resistive-inductive-capacitive Series Circuits

Section: Chapter Questions

Problem 1PA: You are an electrician working in a plant. A series resonant circuit is to be used to produce a high...

See similar textbooks

Similar questions

A coutimuous-time sinusoid has frequency 2 = 70r rads sec and is sampled at a sampling interval of T=0.01 sec. What is the frequency of the discrete-time sinusoid? %3D Oa =70z rads ses OL- 0.7z rada sec Oce= 7x rads sec Od0= 7000r ads see
21) Looking at the following circuit, select the correct Transfer fucntion. Please recognize that the answers are expressed in rectangular coordinates and not in magnitude, making this an easy problem. 21). ww w For the circuit in the given figure, assume L = 0.5 H and R= 200 kohm. ele O Vout (jw) Vin (jw) 200 k Vin R Vout –200 k+jw0.5 Vout (jw) ju0.5 200 k- jw0.5 Vin (jw) O Vout (ju) Vin (jw) - jw0.5 200 k– jw0.5 Vout (jw) 200 k Vin (jw) 200 k+jw0.5
a. Determine the frequency responseVout( jω)/Vin( jω) for the circuit of Figure. b. Plot the magnitude and phase of the circuit forfrequencies between 10 and 107 rad/s on graphpaper, with a linear scale for frequency. c. Repeat part b, using semilog paper. (Place thefrequency on the logarithmic axis.) d. Plot the magnitude response on semilog paper withmagnitude in decibels.
H.W: A resistor of resistance R-1000 2 is maintained at 17 °C and it shunted by 100 uH inductor. Determine the rms noise voltage across the inductor over a frequency bandwidth of: i) 15.9 kHz Ans: 182 x109 volt ii) iii) Ans: 9.22 x10-8 volt Ans: 2.34 x10-6 volt 159 kHz 1590 kHz
A parallel R-L-C circuit is fed by a constant current source of variable frequency. The circuit resonates at 100 kHz and the Q-factor measured at this frequency is 5. Find the frequencies at which the amplitude of the voltage across the circuit falls to (a) 70.7% (b) 50% of the resonant frequency amplitude.
IN A SERIES RLC CIRCUIT DRIVEN BY SINUSOIDAL INPUT SIGNAL, THE PHASE BETWEEN THE CURRENT AND THE INPUT VOLTAGE IS PLOTTED IN THE NEXT GRAPH. When the frequency f = 60 kHz the phase (in radians) between the voltage on the capacitor and the voltage on the inductor is about: 1.6 1.2 0.8 0.4 -0.4 -0.8 -1.2 -1.6 1 10 100 1000 Frequency (f), kHz O a. zero O b. -1.57 O c. 0.003 O d. 1.57 O e. 3.14 Phase (0 ), rad
Identify the reason for a nonsinusoidal signal being distorted when it passes through a filter. -The distortion occurs because harmonics are removed or rejected, leaving a different waveshape. -The distortion occurs because harmonics are synchronized, leaving a different waveshape. -The distortion occurs because the signal is modulated, leaving a different waveshape. -The distortion occurs because harmonics are added in the filter, leaving a different waveshape.
The baudwith of amplitude modulated component is IOKAE, the aighest frequency is T05 K Hz. Find carrier frequency of AM sign9/·
what is the phase angle of iT in degrees when expressed as a cosine function?
Q2: Express each of the following functions in phase angle form and sketch the fre- quency spectrum (a) f(t)= 2+3sint- 2 sin3t – cos5t (b) f(t)=1-sint+ 2cost – cos2t + cos3t – 2 sin3t (c) f(t)= sin t cos3t
What happens to the impedance for The frequencies between 1Hz-40KHz for RLC series parallel combination. Justify your answer.
Now, how (as what equivalent value) does this capacitor transform into the frequencydomain?