help please Consider a series RLC circuit having the parameters R = 190 M, L = 690 mH, and C = 24.0 μF. The applied voltage has an amplitude of 50.0 V and a frequency of 60.0 Hz.(a) Find the current Imax and its phase relative to the applied voltage Av.| A at & = |(b) Find the maximum voltage AVR across the resistor and its phase relative to the current.| V at op = |(c) Find the maximum voltage AVC across the capacitor and its phase relative to the current.V atop =(d) Find the maximum voltage AV across the inductor and its phase relative to the current.Vat=

Step 1:Angle for (a) in more accurate terms is -38.2157 degrees.

Answered: Consider a series RLC circuit having…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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b) Derive a block diagram model for the RLC series circuit shown in Figure Q1, relating input voltage Vin to output voltage Vout derived across the inductor. Your answer should identify the state variables, list the governing equations, and clearly show the direction of flow of signals in the block diagram. R + Vin(~ C Figure Q1 0.000 Vout
A series R-L-C circuit is connected to a 0.2 V supply and the current is at its maximum value of 4 mA when the supply frequency is adjusted to 3 kHz. The Q-factor of the circuit under these conditions is 100. Determine the value of (a) the circuit resistance, (b) the circuit inductance, (c) the circuit capacitance and (d) the voltage across the capacitor. ANS: (a) 50 2; (b) 0.265 H; (c) 10.61 nF; (d) 20 V.
5. For a 1Vpp sinusoidal input, at a frequency of 1KHz, draw the output for each circuit.
For a series RLC circuit with a sinusoidal input voltage, the amplitude of the current passing through the circuit (I, in mA) is plotted as a function of frequency for two cases: Curve 1 with R1, L1. and Curve 2 with R2. L2 as shown in the next figure. The value of the capacitor used in the circuits is C=0.01 micro Farads. If the value of R2 =1600 Ohm then the input voltage (in volts) is: 7.5 25 110 Frequency H2 O a. 4 O b. 16 sin(9888 t) O c. 8 O d. 8 cos(6.28 f t) O e. 8 sin (6.28 R t)
A 100-mH inductor is connected in parallel to the series connection of a variable resistor R and a 20-µF capacitor. The circuit is energized by a 120 Vac, 60-Hz supply. Find the value of R such that the total circuit current is 2.3023052 - 86.6782° A.
Ques 2 An RLC series circuit has R = 502, C = 50µF and a variable inductance. The applied voltage is 220 V at 100 rad/sec. The inductance is varied till the voltage across resistance is maximum. Under this condition, find the (i). Value of inductance (ii) Q - Factor
p1
Let Zeq be the equivalent impedance of a parallel connection of an inductor with inductance L and a capacitor with capacitance C. At w=1/√√LC, the equivalent impedance is given by O a. Zeq = 0 b. Zeq = 1 O c. Zeq = 00 O d. Zeq = 0.5
The figure shows a driven RLC circuit that contains two identical capacitors and two switches. The emf amplitude is set at 12.2 V, and the driving frequency is set at 62.0 Hz. With both switches open, the current leads the emf by 30.9°. With switch S, closed and switch Sz still open, the emf leads the current by 15.0°. With both switches closed, the current amplitude is 444 mA. What are (a) R, (b) C, and (c) L? L s, (a) Number i Units (b) Number i Units (c) Number i Units
please include working
pls answer both, thank you.

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