PLEASE ANSWER ALL OF THIS QUESTION ASAP!!! Which of the following is an accurate statement forseries tuned circuit?ABDAThe resonant frequency is inverselyproportional to the reactance.BThe current is maximum at the resonantfrequency.An open circuit acts at the resonantfrequency.Which of the following statements is/are true?The impedance is zero at the resonantfrequency.©The leakage resistance of the capacitor isconnected in series with the capacitor.The wire leads of the capacitor haveresistance connected in series with thecapacitor.The leakage resistance of the capacitor isconnected in parallel with the capacitor.The wire leads of the capacitor haveD inductance connected in series with thecapacitor.Consider the filter shown below. What is theapproximate cut-off frequency?R = 10 kVin(A) 159 kHzB159 MHzC) 0.159 kHzD159 Hz10000VoutL = 10 mHⓇ

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Answered: Which of the following is an accurate…

Engineering

Electrical Engineering

Which of the following is an accurate statement for series tuned circuit?

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Question

PLEASE ANSWER ALL OF THIS QUESTION ASAP!!!

Which of the following is an accurate statement for
series tuned circuit?
A
B
D
A
The resonant frequency is inversely
proportional to the reactance.
B
The current is maximum at the resonant
frequency.
An open circuit acts at the resonant
frequency.
Which of the following statements is/are true?
The impedance is zero at the resonant
frequency.
©
The leakage resistance of the capacitor is
connected in series with the capacitor.
The wire leads of the capacitor have
resistance connected in series with the
capacitor.
The leakage resistance of the capacitor is
connected in parallel with the capacitor.
The wire leads of the capacitor have
D inductance connected in series with the
capacitor.
Consider the filter shown below. What is the
approximate cut-off frequency?
R = 10 k
Vin
(A) 159 kHz
B
159 MHz
C) 0.159 kHz
D
159 Hz
10000
Vout
L = 10 mH
Ⓡ

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