Q) A source of 10 V and frequency 1000 KHz with internal resistance of 10 Q is connected to the sending end of a transmission line which can be represented by a resistance of 70 N in series with capacitance of 0.001 µF connected across the line at the receiving end. An inductive load of inductance 0.002 H and resistance 100 Q is

Q) A source of 10 V and frequency 1000 KHz with internal resistance of 10 Q is connected to the sending end of a transmission line which can be represented by a resistance of 70 N in series with capacitance of 0.001 µF connected across the line at the receiving end. An inductive load of inductance 0.002 H and resistance 100 Q is

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.14MCQ: The instantaneous power absorbed by the load in a single-phase ac circuit, for a general R LC load...

See similar textbooks

Similar questions

An inductor is attached to an AC voltage source. Which change will result in a halving of the current?A. Halving the voltage and doubling the frequencyB. Doubling the frequencyC. Halving the frequencyD. Doubling the voltage and halving the frequency
A circuit consists of an AC voltage source, a 10-ohm resistor, and a capacitor, all connected in series. The magnitude of the impedance of the capacitor is also 10 ohms. Which of the following is true about the phase angle difference between the source voltage and the current through the circuit? a. Insufficient information is given. b. The phase angle difference will be zero degrees. c. The phase angle difference will be 45 degrees. d. The phase angle difference will be 90 degrees.
The Subject is Basic Electrical Engineering Chapter 15. Conductance, Susceptance and Admittance of AC Circuit.
Needs Complete typed solution with 100 % accuracy.
We shall study the function of the PN generator in the context of the transmitter (Tx) and receiver (Rx) circuits by means of a simple example.
From the data obtained in steps 6, 12 and 18, draw the voltage phasor diagram. 6- Using the digital multimeter DMM to fill the fallowing table. At Home Z- Frequencyf Ve 746 1.05 1.18 O. 4G 84.b223ka 100 Hz 500 Hz 1 KHz 3.34 13. 12- Using the digital multimeter DMM to fill the following table. At Home z= Frequeney f VSL R 5.62h1.81n 7.06 I K Hz 3.62 3.31 10 K Hz o.69 20 KHz 9.65 33.3M 18- Using the digital multinseter DMM to fill the fallowing table. At Home Freguencyf Ve Z- 1 KHz 10 KHz 5.07 o. 74 उ 9.15 3.43 714 3 5.0Zm 1.97ke 7.4 x4% 13 5k 100 KHz
Please explain in detail. A. In a series circuit, if the AC voltage is measured across the AC voltage source, will there be any variations in the phase of the AC voltage across each resistor from the measured AC voltage across the source? B. In an AC voltage source, why does voltage vary with time? Please explain in detail. C. In a series circuit, are the frequencies of the AC voltages across each resistor the same? Why is this so? ...
Q2. A series of motor (Load 1) and lighting (load 2) are connected to an AC source as shown in Figure Q2. The AC source, Vs, supplies 415220° V with frequency 50 Hz. Based on this information: 5Ω 100mH : 15 2 Load 1 Load 2 i) Calculate the total load impedance. Vs ii) Calculate the current, I. Figure Q2. Write the waveform expressions in frequency domain for Vs and I. Draw a phasor diagram consists of Vs and / and state the relationship between Vs and I. (ii) (iv) Determine the power factor and calculate the real power, reactive power and apparent power. Establish the power triangle for the load.
Answer #4 only.
Quiq
Two impedances are connected in parallel across a 220-volt source. If Z1= 4 cis (30) and Z2 = 5 cis (60) ohms. Find the equivalent admittance ( Siemen ) of the circuit. O 0.435 cis(- 43.3) O 2.3 cis (43.3) O 0.835 cis (-53.3) O 0.835cis (53.3)
2.A series R -L-C circuit is to be made resonance when connected to a 200 – volt 500 cycle source. If the inductance is 0.047 henry, determine the capacitance of the capacitor and the minimum ohmic value of the resistor if the voltage drop across the capacitor is limited to 580 volts?