Solve 2(a), (b) and 3 (a). 2222༣1=0wwX52w+12V0125F++10000+0.SHJSV2 a) The switch in the circuit given below has been open for a long timebefore closing at 10. Find v (1) for 1≥0.400 ≤2www+12 V1.25uF1=00000+311.25 Hb) HePloab) A 50Hz sinusoidal voltage of maximum value of 400V is applied toa series circuit of 102 resistance and 0.1H inductance. Find andexpression for the value of the current at any instant after thevoltage is applied, assuming that the voltage is zero at the time ofapplication. Calculate its value at -0.02s after switching on.3 a) For the RLC circuit shown in the figure below, find the completeresponse if (0) 2V when the switch is closed using Laplacetransform method. Draw the equivalent circuit in s-domain for1>0.2 cos 4t V1=06Ω ΤΗwww-mF+82

Answered: 22 22 ༣ 1=0 w w X 52 w +12V 0125F ++1…

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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Similar questions

The current through a 50 mH inductor is given below. Use Ohm’s Law to find the voltage. Convert to polar form, find the impedance and complete the math, then convert back to the waveform at i1 = 7.5sin(2500t – 20°) mA and i2 = 5.9sin(200t + 40°) mA
please write the complete solution and the topic is AC parallel circuits thank you A sinusoidal 50 Hz voltage of 200 V(rms) supplies the following three circuits which are inparallel (i) a coil of inductance 0.03 H and resistance 3 ohms,(ii) a capacitor of 40 microfaradin series with a resistance of 100 ohms, (iii) a coil of inductance 0.02 H and resistance 7 ohmsin series with a 300 microfarad capacitor. Find the total current supplied.
The figure below shows a simple RC circuit with a 3.30-μF capacitor, a 4.40-M resistor, a 9.00-V emf, and a switch. What are the following exactly 9.00 s after the switch is closed? (a) the charge on the capacitor 13.7204 UC (b) the current in the resistor 0.0110522 x Your response is off by a multiple of ten. HA (c) the rate at which the capacitor is storing energy μW (d) the rate at which the battery is delivering energy μW
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)
Date Pags 2) A sinusoidal alteznating voltage has value of 200V and 50 Hz It cEOSses an EoMo S. a fzequency of the zeso axi in a pasitive disection when t=0. Detezmine ņ the Aime when voltage fizst teaches the instan Zenemus value of 200 V and 2) the whe time when Valtage madei mum. after passing throag its positive ualu e eeashes the value Of 141.4V.
Write the differential equations for this circuit then change this circuit so that The voltage at V2 is 9.00V (DC) With a ripple of 500mVpp
The answer is neither b or e
An impulse generator has 9 stages with each condenser rated for 0.1 aF and 115 kv. The load capacitor available is 0.02pF. Find resistance (R2) to produce 2.55/68ps impulse wave. 30 R1 and R2 are. the series resistance (R1) and damping and (a) R1 119 ohm and R2 = 3000 ohm (b) R1 130 ohm and R2 = 2850 ohm (c) R1= 110 ohm and R2 = 4500 ohm (d) R1 150 ohm and R2 = 1500 ohm (e) Ri 44 ohm and R2 2500 ohm O a. e O b. a Oc b O d. c O e. d
For the circuit below with input voltage V1, a step function of magnitude 25 volts at time t-0, find the transient response voltage across the capacitor C1 and plot the results: (Provide your calculations and reasoning for your answer.) R1 555 250mH V1 = 0 V2 - 25 TD = 0 TR In V1 C1 TF in PW- 25 PER = 3.3u
18 In the circuit shown in the figure below, for what value of C will the current-I be in phase with the sinusoidal source voltage V= sin2t? Vs (1 + j1) Q (a) -F 4 (b) (c) (d) 1F /-
The following circuit corresponds to: Time left 0:51:55 Ic(s)→ of 2/s Vc( ) + 2/s O a. a 2F capacitor with an initial voltae v. (0)= 2V a 2F capacitor with an initial voltae v. (0)= 0.5V c a 0.5F capacitor with an initial voltae v. (0 ) = 2V a0.5F capacitor with an initial voltae v. (0 )= 0.5V d. e None of the other answers O Type here to search
please solve quickly.

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