O=1Մb.☑A 50-Hz sinusoidal voltage of maximum value of 400 volt is applied to a series circuitof resistance 10 Ohms and inductance 0.1 Henry. Find an expression for the value ofthe current at any instant after the voltage is applied, assuming that voltage is zero atthe instant of application. Calculate its value 0.02 second after switching on.(13Marks)12:48 PM POEOT 'OI.llll 268 A70

Here is the step-by-step explanationGiven:Frequency,f=50HzMaximum…

Answered: O =1 Մ b. ☑ A 50-Hz sinusoidal voltage…

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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PLEASE ANSWER THIS QUESTION (Q1B)
Solve the current's magnitude and angle. Note: Do not round off until final answer and round off the final answer to five decimal places.
Draw a graph of current against time for two complete cycles of alternating current of peak value2 A and frequency 10 Hz. Label the axes and indicate correct scale of values on them.(Hin: youhave to calculate the time for one cycle in order to mark the x-axis)
In the RC (series) circuit, R = 1.2 M2 and C = 5.00 µF. It is connected to a 30 volt power source with a switch S. www R When the switch is closed, how long will it take for the capacitor to reach 25 volts on the positive plate? a. 5.6 sed b. 8.2 sec c. 10.8 sec d. 12.3 sec
26
An alternating current varying sinusoidally with a frequency of 50Hz has an RMS value of 20A. (i) Write down the equation for the instantaneous value (ii) find the value of (i) at 0.0025 second I need for every correct steps
17. The voltage rating of a capacitor .rin Industy beonuse it hes - a. should never be exceeded b. is a minimum working voltage c. is only a suggested maximum d. can be exceeded as long as the time is under one hour
(b) Figure Q2(b) represents a single-line diagram of typical power system with the line impedances as indicated in pu on a 100 MVA base with a synchronous generator at Bus 1. The line charging susceptances are neglected. Calculate the bus voltages of V½ and V3 in pu using Gauss-Seidel method with the initial estimates of V, = 1+ j0 pu and V) = 1+ j0 pu. Perform only THREE (3) iterations. (0) (0) 1 230.5 0.01+j0.03 pu MW G 0.025+j0.05 pu 0.02+j0.04 pu 172.9 MVAR V1 = 1.0620°
Question 19 A 23 kHz sinusoidal signal is applied to a 0.0023 µF capacitor. If the rms current measures is 4 mA what is the voltage rms across the capacitor Enter your results in volts. Do not type the unit.
kindly answer neatly and clearly show complete solution. thank you ! ill give thumbs up for the answer
Waveform Generator RED CLIP BLACK CLIP R1 C1 1kQ 100μF Figure 3: Breadboard circuit. GND 7. Measure the value of R1: 8. Measure the value of C1: Wave Gen Wave Gen GND GND + GND GND For High Level O For Low I Level τ: R1: R1 1kQ C1: R1 1kΩ 카 GND Figure 4: Circuit behaviour. The circuits in Figure 4 show the expected behaviour of the RC circuit. When the waveform voltage level is high, the capacitor charges through R1. When the waveform voltage is low, the capacitor discharges through resistor R1. It is important to note that the switches in Figure 4 do not exist inside the instrument. They are an analogy to the circuit behaviour. 6. Calculate the T for this circuit: 11 GND C1 100μF C1 100μF
... 0.25 A 120 V 60 Hz RL 1 k2 470 μ When the circuit is working normally, it has an rms secondary voltage of 11.91 volts. What is the peak-to-peak ripple voltage?

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