Don't use ai to answer I will report you answer a) A series circuit consists of an inductor L = 1mH, a Capacitor C =10 uF and a 1k resistor. Find the resonance frequency of the circuit. [2Marks]b) The same inductor L and capacitor C are connected with R₁ and R2 toform two different circuit configurations as shown belowWhat is the ratio between R₁ and R2 to have the same resonancefrequency for the two circuits? [4 marks]• If V = 120 cos wt and R₁ = 52 calculate the active powerabsorbed by the parallel circuit at resonance. [2 Marks]• If V₂ = 100 cos wt and R2 =1002calculate the voltage across thecapacitor C of the series circuit at resonance. [2 Marks]R₁☐☐HHR2ли

Answered: a) A series circuit consists of an…

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

Question

Don't use ai to answer I will report you answer

a) A series circuit consists of an inductor L = 1mH, a Capacitor C =
10 uF and a 1k resistor. Find the resonance frequency of the circuit. [2
Marks]
b) The same inductor L and capacitor C are connected with R₁ and R2 to
form two different circuit configurations as shown below
What is the ratio between R₁ and R2 to have the same resonance
frequency for the two circuits? [4 marks]
• If V = 120 cos wt and R₁ = 52 calculate the active power
absorbed by the parallel circuit at resonance. [2 Marks]
• If V₂ = 100 cos wt and R2 =
1002calculate the voltage across the
capacitor C of the series circuit at resonance. [2 Marks]
R₁
☐☐
HH
R2
ли

Expert Solution

Step by step

Solved in 2 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

p1
5 Required information A parallel resonance circuit has a resistance of 2 k2 and half-power frequencies of 86 kHz and 92 kHz. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Determine the inductance. The value of the inductance is 53050 PH.
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.
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.
R. Frequency...
Calculate the parallel resonant frequency of the crystal if a 2-pF capacitor is placed in parallel with the crystal. Repeat for a 20-pF capacitor.
In a RC type low pass fitter, the cut-off frequency is 1500 Hz, Assuming the capacitance to be 500 nF. The value of the resistance is - (in)
Graph magnitude and phase versus f (f) = [rect (* = 1000) = + rect (f+1000 100 900)] e- e-jxf1500
The inductance coil in the series resonant circuit is 0.2 H, and the resistance coil is 50 Q. At what capacitance value does resonance occur at 1500 kHz in this circuit? Assuming a 100 V r.m.s. e.m.f. at the source.
What capacitance value is required for each of the varactors in the following figure to produce a resonant frequency of 1 MHz? VRO- D₁ D₂ 000111 2 mH
In a series resonant circuit, a resistor of resistance 500 ohm, an inductor of inductance 4.5 henry (H) and a capacitor of unknown capacitance are present. If the resonant frequency is 20 kHz, then what will be the value of the capacitance?
Complete Part A, Thank you! I will give a great rating!

Recommended textbooks for you

Delmar's Standard Textbook Of Electricity

Electrical Engineering

ISBN:

9781337900348

Author:

Stephen L. Herman

Publisher:

Cengage Learning

Delmar's Standard Textbook Of Electricity

Electrical Engineering

ISBN:

9781337900348

Author:

Stephen L. Herman

Publisher:

Cengage Learning

SEE MORE TEXTBOOKS