Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
expand_more
expand_more
format_list_bulleted
Textbook Question
Chapter 21, Problem 6P
A series circuit has a resonant frequency of 10 kHz. The resistance of the circuit is 5
a. Find the bandwidth.
b. Find the cutoff frequencies.
c. Find Qs.
d. If the input voltage is 30 V
e. Find the power dissipated at resonance.
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solutionStudents have asked these similar questions
For the electric circuit shown in
figure below, find the value of
?the total power at resonance
Calculate the bandwidth in kHz Blank 1 and an
inductor's Q Blank 2 at100MHz. It has an
inductance of 6mH and a series resistance of
1.2k2.
In the circuit of Figure, the magnitudes
of V₁ and V at the resonance are twice
L C
that of VD. The inductance of the coil for
R*
50 Hz is
520⁰
VR
www.
502
Vc
ell
V₁
Chapter 21 Solutions
Introductory Circuit Analysis (13th Edition)
Ch. 21 - Find the resonant s and fs for the series circuit...Ch. 21 - For the senes circuit in Fig. 21.51 : a. Find the...Ch. 21 - For the senes circuit in Fig. 21.52 : a. Find the...Ch. 21 - For the circuit in Fig. 21.53: a. Find the value...Ch. 21 - a. Find the bandwidth of a series resonant circuit...Ch. 21 - A series circuit has a resonant frequency of 10...Ch. 21 - a. The bandwidth of a series resonant circuit is...Ch. 21 - The cutoff frequencies of a series resonant...Ch. 21 - a. Design a series resonant circuit with an input...Ch. 21 - Design a series resonant circuit to have a...
Ch. 21 - A series resonant circuit is to resonate at s=2106...Ch. 21 - Prob. 12PCh. 21 - For the ideal parallel resonant circuit in Fig. 21...Ch. 21 - For the parallel resonant network in Fig. 21.55:...Ch. 21 - The network of Fig. 21.56 has a supply with an...Ch. 21 - For the network in Fig. 21.57: a. Find the value...Ch. 21 - The network shown in Fig. 21.58 is to resonate at...Ch. 21 - For the network in Fig. 21.59: a. Find the...Ch. 21 - Prob. 19PCh. 21 - It is desired that the impedance ZT of the high Q...Ch. 21 - For the network in Fig. 21.62: a. Find fp. b....Ch. 21 - For the network in Fig. 21.63: a. Find the value...Ch. 21 - Prob. 23PCh. 21 - For the network in Fig. 21.65: a. Find fs. fp, and...Ch. 21 - For the network in Fig. 21.66, the following are...Ch. 21 - Prob. 26PCh. 21 - For the parallel resonant circuit in Fig. 21.68:...Ch. 21 - Verify the results in Example 21.8, That is, show...Ch. 21 - Find fp and fm for the parallel resonant network...
Knowledge Booster
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.Similar questions
- 2. Determine the resonance frequency and bandwidth from the graph. Find the Q-factor also. A resonance curve for the parallel LC circuit 1- 09- 08- 0.7 06- 0.5 04 03 01 10 Frequency Frequency: KHz Bandwidth KHz Q-Factor:arrow_forward30. A parallel tank circuit operating at its resonant frequency has an impedance of 10,000 N. At the points on eith 29. In an RC parallel circuit, ET = 480 V, R= 50 k2, and XC =47 k2. What is the reactive power? %3D a. 5.36 VARS b. 4.90 VARS c..7.61 VARS d. 6.38 VARS ac of the resonant frequency that define the bandwidth, the impedance is approximately a. 6,000 2 21 b. 7,070 N c. 10,140 2 d. 15,000 2arrow_forwardb) Determine the value of the capacitor and inductor of a series resonance circuit exhibiting the following specifications: BW = 200 Hz fres = 2000 Hz You can assume any suitable resistor value.arrow_forward
- What should be the L value of the coil for the circuit in the figure to be in resonance at all frequencies?arrow_forwardIn a series RLC circuit, the applied voltage is 120V. At resonance, the frequency is 200rad/sec, and the circuit current is 6.26 A. What is the resistance of the circuit (in Ohms)? (Use 2 decimal places. Unit is not required.)arrow_forwardIdentify 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.arrow_forward
- Find DFT values of x-[6 87 4] and plot amplitude and phase spectrum. Write axis labels.arrow_forwardH.W: A resistor of resistance R=1000 2is maintained at 17 °C and it shunted by 100 uH inductor. Determine the ms noise voltage across the inductor over a frequency bandwi dth of: Ans: 182 x10° volt Ans: 9.22 x10 volt Ans: 2.34 x10 volt i) 15.9 kHz ii) i) 159 kHz 1590 kHzarrow_forwardDetermine the break frequency in KHZ of the RC low-pass circuit below. Assume that Resistor value is 3 KQ and Capacitr value is 0.02uF.arrow_forward
- A resistor of resistance R=1000 2 is maintained at 17 °C and it shunted by 100 µH inductor. Determine the rms noise voltage across the inductor over a frequency bandwidth of: i) 15.9 kHz Ans: 182 x10-⁹ volt Ans: 9.22 x10-8 volt 11) 159 kHz iii) 1590 kHz Ans: 2.34 x10-6 voltarrow_forwardIn series resonance the voltages of capacitance and inductance can be much higher than the supply voltage of the circuit O a. True O b. Falsearrow_forwardThe below 4 figures are the angle of the transfer function of passive filters. Phase (deg) -45- Phase (deg) (Cep) sid 45 10 10 Frequency (radisec) 10² Frequency (rad/sec) Figure-1 shows the frequency response of Figure-2 shows the frequency response of Figure-3 shows the frequency response of Figure-4 shows the frequency response of 4) ( + 4 10 10" 10arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
- Delmar's Standard Textbook Of ElectricityElectrical EngineeringISBN:9781337900348Author:Stephen L. HermanPublisher:Cengage Learning
Delmar's Standard Textbook Of Electricity
Electrical Engineering
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Cengage Learning
FM and Phase Modulation Explained in Xfer's SERUM; Author: Ghosthack;https://www.youtube.com/watch?v=A2q2MpeVtXU;License: Standard Youtube License