10 j4 N 39 N 250/0° V (rms) j26 N Source -Line Load In the circuit shown in Fig. 10.13, a load having an impedance of 39 +j26 Q is fed from a voltage source through a line having an impedance of 1 + j4 Q .The effective, or rms, value of the source voltage is 250 V. (a) Calculate the average and reactive power absorbed by the load ? (b) Calculate the average and reactive power absorbed by the line ? (b) Calculate the average and reactive power deliver by the source ?

10 j4 N 39 N 250/0° V (rms) j26 N Source -Line Load In the circuit shown in Fig. 10.13, a load having an impedance of 39 +j26 Q is fed from a voltage source through a line having an impedance of 1 + j4 Q .The effective, or rms, value of the source voltage is 250 V. (a) Calculate the average and reactive power absorbed by the load ? (b) Calculate the average and reactive power absorbed by the line ? (b) Calculate the average and reactive power deliver by the source ?

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...

See similar textbooks

Related questions

Q: Find the impedance seen by the ideal voltage source in the circuit when Zo is adjusted for maximum…

A: Short-circuit the voltage source, and open the terminals of load and connect a 1V source across it…

Q: Q.1) The variable load resistor RL in the circuit is adjusted for maximum average power transfer to…

A: a) The given figure is, Determining the Thevenin’s equivalent across load resistor

Q: 10.4 A load consisting of a 240 resistor in parallel with a (5/18) μF capacitor is connected across…

Q: The three loads in the circuit in Fig. P10.30 can be described as follows: Load 1 is a 240 2…

Q: For the circuit shown , what value of ZL results in maximum average power transfer to ZL? What is…

A: Given data: Voltage, Vth = 10 V. Resistor, Rth = 3000 Ω. Inductor, Lth = j4000 Ω. According to…

Q: Q/ when connected to a 120V (rms), 60HZ power line , a load absorbs 4Kw at a lagging power factor of…

Q: A coil of inductance 80 mH and resistance 60 is connected to a 200 V, 100 Hz supply. 10. Calculate…

Q: For the circuit shown, what is the average power, P, consumed by the 18+ j32 load impedance? (Assume…

Q: 1. Find the complex power drawn by each of the passive elements in the circuit shown. -j20 2 40/0° V…

Q: The three parallel loads in the circuit shown in Fig. 3 absorbing an average power of 24 kW and 18…

Q: The magnitude of the load voltage in the circuit shown in Figure 1 is [Vrms| = 470V and radian…

A: For given frequency

Q: The load impedance in the circuit shown is shunted by a capacitor having a capacitive reac- tance of…

A: In Network Phasor load current and voltage Real and imaginary power across load , transmission…

Q: Determine the average power absorbed by delta connected load Z, = 30+ j27 N. 100/0° V rms J0.5 Q ZA…

A: The average power is the power divided by the number of cycles. The ac current delivered to a…

Q: The maximum values of the alternating voltage and current are 400 V and 20 A respectively in a…

A: The solution is given below

Q: Problem To convert the power factor to 0.95 lagging, (given a load requiring 40kW with a power…

A: Real power P=40kWCurrent power factor = 0.84 laggingLoad voltage VL = 220 VrmsTransmission line…

Q: Examples When connected to a 120-V (rms), 60-Hz power line, a load absorbs 4 kW at a lagging power…

Q: Find the impedance seen by the ideal voltage source in the circuit shown in (Figure 1) when Z, is…

A: For the given circuit the equivalent resistance should be calculated and the maximum load will be…

Q: An Industrial complex is fed by a 13 KV (rms) transmission line. The average current delivered…

A: consider the given question;

Q: For a load of Z = 50260° N with Irms = 100460° A, find the following: (a) complex power, S (b)…

Q: A building inventory identified the following equipment with the corresponding impedance or power…

A: The table,

Q: The apparent power entering a certain load Z is 250 VA at a power factor of 0.8 leading. Q1) If the…

A: (a): The RMS current is:S=VrmsIrmsIrms=SVrmsIrms=250125Irms=2A (b): The power factor angle is:…

Q: Three loads are connected in parallel across a 300 V (rms) line. Load 1 absorbs 3 kW at unity power…

A: Given figure is,parallel loads,Asked to find the,a) Calculate the rms value of the voltage ( Vs ) at…

Q: A load impedance absorbing 4 W with a leading power factor of 0.80 operating at radial frequency of…

A: It is given that: P=4Wcosϕ1=0.80cosϕ2=0.90Irms=1Aω=60 radsec

Q: 3. A source supplies power to a load through a line of impedance 1 +j1 22. The load consists of an…

A: Note- As per Bartleby Policy we are allowed to solve only three subparts. hence the solution for a,b…

Q: In the circuit shown , a load having an impedance of 39+j26 Ω is fed from a voltage source through a…

A: For a single phase system has a source, line and load, the following parameters are given:source…

Question

10
j4 N
39 N
250/0°
V (rms)
j26 N
Source –
-Line
Load
In the circuit shown in Fig. 10.13, a load having an impedance of 39 +j26 Q is fed from a
voltage source through a line having an impedance of 1 + j4 Q .The effective, or rms, value of
the source voltage is 250 V.
(a) Calculate the average and reactive power absorbed by the load ?
(b) Calculate the average and reactive power absorbed by the line ?
(b) Calculate the average and reactive power deliver by the source ?

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Calculate the active power, reactive power, power factor, Reactive factor if: v=100 cos (wt+150) V and i=4 cos (wt-1050) V Note: Enter the angle in radians. (rad * pi/180) Consider V and I given in the problem represents Vrms and Irms Active Power, P = Vrms Irms cos(θv – θi) Reactive Power, Q = Vrms Irms sin(θv – θi) Power factor (pf) = cos(θv – θi) Reactive factor (rf) = sin(θv – θi)
The instantaneous voltage across a circuit element is r(t) = 359.3 sin(cot +15°) volts, and the instantaneous current entering the positive terminal of the circuit element is i(t) = 100 cos(cot +5°) A. For both the current and voltage, determine (a) the maximum value, (b) the rms value, (c) the phasor expression, using cos(cot) as the reference.
Please show all steps, thank you
A power circuit is shown below. The active and reactive powers of the 3 loads and their types are as given. The magnitude of the source current is I= 20 A (Rms). %3D a) Calculate the average power PR received by the resistor and calculate the value of the unknown resistance R. b) What is the power factor pfs seen by the source L= 20 A (Rms) 1 kWatt 5 KVAR Load 3 1 kWatt 1 KVAR Capacitive R Load 1 V = 500 20° Inductive 5 kWatt 10 KVAR Volt (Rms) Load 2 Inductive
Problem 281: Two parallel branches have admittances 0.3+ j0.4 and 0.2- j0.25, respectively If the current in the first branch is 10 A, determine the total current supplied to the parallel combination. A. 10.44 A B. 12.10 A C. 15.32 A D. 11.24 A
Do all parts please
10.25 The three parallel loads in the circuit shown in Fig. P10.25 can be described as follows: Load 1 is absorbing an average power of 7.5 kW and 9 kVAR of magnetizing vars; load 2 is absorbing an average power of 2.1 kW and generating 1.8 kVAR of mag- netizing reactive power; load 3 consists of a 48 resistor in parallel with an inductive reactance of 19.2 2. Find the rms magnitude and the phase angle of Vg if V₁ = 480/0° V (rms). Figure P10.25 j0.5 V₁, L₁ 5 L₂ L3
Consider the network shown in Fig Q.3, Determine the impedance seen by the source. 3+j8 2 j2 2 2-j5 2 250 230° V j5 Q j50 (rms)