Task (3)Al Hussein Technical UniversityYou are given the below parallel RLC circuit, answer the following questions showing the detailed steps.1.5 μFLis 300 mH220 VR3 300 2L2120 mH50 Hz0.5 µFFigure 3: Parallel RLC Circuita) Total impedance of the circuitb) The voltage and current Phase shifts of the total impedence.c) The voltage across C1 and the current flows through it.d) The voltage across L1 and C2.e) The currents flow through L1, R and L2. Task (4)a) Using your own words, describe how triangular waveforms are produced from sinusoidalwaveforms.b) Write a sinusoidal formula that will produce a triangular waveform.c) Demonstrate your understanding by plotting the formula shown in b using any of the plottingsoftware.

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Answered: Task (3) Al Hussein Technical…

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter21: Resistive-capacitive Series Circuits

Section: Chapter Questions

Problem 1PP

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QUESTION 14 A 900nF capacitor, a 200mH inductor and an 8200 resistor are connected in parallel with a function generator. The total voltage for the circuit is 120V RMS, 550HZ. Calculate the total impedance, total current, and the current through each component. Show all of your work, including circuit diagram. Write out your solution by hand and take a scan/photo of your work. Submit your work for Question 14 here. Make sure your submission is neat and legible. No marks will be allocated for significant digits.
What's 21 22 23
What's 15 16 17
Task 3 A three phase, four wire star connected load consisting of: ZR: a resistor of 9500 in series with a 3H inductor ZB: a resistor of 1950 ZY: a resistor of 1950 in series with a 4µF capacitor Using the equipment available in the power lab (Room T017), connect the given load to a three-phase supply available in the lab and: 3.1. Determine the current of each line and the neutral current and measure the total power supplied by the source. 3.2. Analytically, calculate all currents and the total power and compare with those obtained in measurements. 3.3. Device a method and measure the waveform of the neutral current. Discuss the obtained waveform and the reason for any distortion in the waveform 3.4. Validate your calculations using computer simulation
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Question 1.) Fill in the blanks with proper wording a.) For a purely resistive circuit, the voltage and current phasors are b.) For a purely inductive circuit, the voltage and current phasors are c.) For a purely capacitive circuit, the voltage and current phasors are
Consider the RC circuit in Figure 2 below. Assuming the switch has been open for a long time before it is closed, fill in a table providing the current through each component and the voltage across each component immediately after the switch is closed, and a very long time after the switch is closed. Next, figure out the time constant for the circuit. (Hint: Assign currents to each branch. Set up the necessary KVL and KCL equations. Eliminate all but one variable to get an equation for just one of the currents. You shouldn’t have to solve this equation to recognize the time constant!)
Please show you detailed solution Number 10 A voltage of 250 volts at 50 Hz is impressed on a circuit having a 60-ohm resistor, 35-?F capacitor, and a 0.25-henry inductor in series. Determine power factor. A. 0.979 C. 0.924 B. 0.862 D. 0.707
The inductive circuit has ___________________ value of reactive power. a-Both positive and negative b-Zero c-Negative d-Positive
You are required to run a test on 250 kV metal-oxide surge arrester in high-voltage laboratory. The test will analyse the dielectric strength of the arrester. Design the most relevant circuit for the experimental set up to test the arrester. The circuit needs to be drawn and explained.
With V1, voltage peak to peak is 10 volts, R1=200 Ohm, R2=1000 Ohm and C1= 300 nF. Find Vx, voltage across the the capacitor, C1 and R2 when the frequency is 1000 Hz and 10000 Hz
3. The secondary voltage can rise above its rated value when the load is a. resistive. b. capacitive. C. inductive. d. an RL series combination.

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