**Problem Statement:**Given \( v = 75 \cos(\omega t + 30^\circ) \, V \) and \( i = 5 \cos(\omega t - 15^\circ) \, A \) for the load impedance shown, what is the complex power, \( S \), dissipated by the load?**Diagram:**- The diagram depicts a rectangular impedance block with an arrow labeled \( i \) pointing to the right, indicating the direction of the current. - Voltage \( v \) is shown across the block, with a positive sign on the left and a negative sign on the right.**Answer Choices:**- \( \bigcirc \) \( 375.0 \angle -45^\circ \, \text{VA} \)- \( \bigcirc \) \( 187.5 \angle -45^\circ \, \text{VA} \)- \( \bigcirc \) \( 187.5 \angle 45^\circ \, \text{VA} \)- \( \bigcirc \) \( 375.0 \angle 45^\circ \, \text{VA} \)

In this question we will find complex power absorbed by load..

Given v = 75 cos(wt + 30°) V and i = 5 cos(wt - 15°) A for the load impedance shown, what is the complex power, S, dissipated by the load? + v - O 375.0Z - 45° VA O 187.5Z- 45° VA O 187.5/45° VA O 375.0/45° VA

Given v = 75 cos(wt + 30°) V and i = 5 cos(wt - 15°) A for the load impedance shown, what is the complex power, S, dissipated by the load? + v - O 375.0Z - 45° VA O 187.5Z- 45° VA O 187.5/45° VA O 375.0/45° VA

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: Given a parallel impedance and resistor with a source emf of 220V, ZR =10Z0º 2, Z =4+j3, and Zc=6-…

Q: 29. Determine Zx in the circuit shown below. * + I= 31.5 (24° A V-50/60v 1+j10 2+j20 3+j30 O 4+ j40…

Q: A sinusoidal voltage is applied to a single phase load. The input current wave form is as shown…

A: Phaser diagram is given, From the diagram, vm=1202 V RMS voltage is given by, Vr=Vm2=12022=120 V

Q: nts ce The voltage and current of an ac circuit are as follows: e = 141. sin (377t + 10) V and i =…

Q: For reactive load, the power factor is equal to Select one: O a. 90 O b.0 O c.2 O d. 1

A: Reactive load is either capacive or inductive in nature.

Q: Find power factor of given circuit 30/0° V rms -j22 42

A: Power factor is the ratio of true power by apparent power. The value of power factor lies in between…

Q: For the circuit shown. If the peak voltage V, -120 L 20 V, X = 4.Y=2, and Z = 4. Answer the…

Q: For the circuit shown, what is the reactive power, Q, consumed by the 1+j5 N load impedance? (Assume…

Q: A nonmagnetic medium has an intrinsic impedance of 250∠30 Ω. Find a) Loss tangent b) Dielectric…

A: Given, Non magnetic medium has Intrinsic impedance η=250∠30° ΩFrequency f=1 MHz

Q: 23 an ac circuit has a frequency of 400 hz. A 16 ohm resistor, 0.0119 inductor and a 16.6 capacitor…

Q: is course Given the circuit below and the associated set of voltages and currents, the reactive…

A: Reactive power

Q: in the following circuit the complex power by each phase is 0.1+ j0.22 + (),1+ j0.22 480V rms b B…

A: Complex power/Apparent Power: The product of Voltage(v) and current(I) in the circuit is called as…

Q: Calculate the power factor of the load ZL. Calculate i) by how much the required reactive power…

Q: If the mesh current 12 = 0.827117.17° A, the supply curent l=1.2L45° A, and R=2.2 0, for the…

A: To find the power factor of current source in the given circuit

Q: For the following circuit, how would we correct a lagging power factor in the load? 840W MOTOR 120V…

A: Given the load is having a lagging power factor. The lagging power factor comes in inductive load…

Q: A Z load draws 12kVA from a 120 V-rms sinusoidal source with a back power factor of 0.85. Find the…

Q: For the circuit shown, find the load impedance Z that absorbs the maximum average power. Calculate…

Q: Key =93 Consider the circuit shown below. Here, R = 2092, R2 = 1092, ZL = +jKEYN and Zc = -j102. The…

Q: Problem 6: Given the circuit below, find the total complex, average, and reactive power absorbed by…

A: In this question, We need to determine the total complex power, average power and reactive power.…

Q: Question No. 9 The average power delivered to an impedance (4-j3) by a current 5 cos(100nt + 100) A…

A: Given- Impedance, Z=4-j3 Ω. Current, I=5 cos100πt+100 A. To find- The average power delivered.

Q: For the circuit of the following figure, if R=26 Q, Zc=-J18 Q, and ZL=J18 Q, and if the value of the…

A: To find The value of reactive power supplied by 3L-41° v

Q: In Problem # 3, V =120 V and I = e30" A. Plot v(t), i(t), and p(t). Calculate the average power P…

A: According to the question we have to, a) Plot v(t), i(t), and p(t). b)Calculate the average power P…

Q: 5 VZ90° 5 AZ0° 3Ω R, >4Ω 3Ω

Q: The source voltage in the circuit is 100cos5000t V (rms). The load impedance (ZL) connected is…

A: Assume a voltage of 1 V at the output terminals. Draw the circuit diagram.

Q: 3 ohm 25,47 mH 4 Ohm 6,37 mH 240Cos(314t+30) 398uF Find the load impedance (ZL) for the maximum…

A: In this question we will find load impedance for maximum power to be absorbed by it..

Q: A 0.2-F capacitor has a voltage waveform v(t) as shown in Figure P3–5. De and plot as functions of…

A: PRESENCE OF SOURCE: In the presence of sources, all the passive elements which are R, L and C always…

Q: A Z load draws 10kVA from a 120 V-rms sinusoidal source with a back power factor of 0.8. Find the…

A: Given that Although fromula of real power or average power is given by

Q: R - 40 X, = 60 Xc - 10 N + UL + Uc e - 70.7 sin 3771 Z,

Q: Q.22: For the magnetically coupled circuit shown, find the voltage across (-J10Q) 10:00V 52 JS2 JSS…

A: The solution is given below

Q: A 5+j1552 15-j5r

A: Given data, Circuit diagram is given as,

Q: A load of 40 -j 30 is connected to a source of 100 V with a phase angle of 30°, through a…

Q: For the circuit shown, if (ZA = 4+j3) Q, then answer Questions (1-4) A 10020 Vrms Z IB В 1002 120…

A: KIRCHHOFF’S LAW: KCL: The algebraic sum of all currents at a node is zero. Kirchhoff's current law…

Q: asor voltage across a certain load is V = 1000/2 Z30° V, and the current I = 19/2 Z 50° A. Part A…

A: In this question , we will find power factor and power consumption in load...

Q: A load of 120 + j 60 is connected to a source of 120 V with a phase angle of 300, through a…

A: Power factor: It tells how much active power is utilized by the circuit from the apparent power. The…

Q: In the ġivén nétwörk C; is charged to 10 volts in the polarity n. Capacitor C, is initially…

Q: A voltage of 12020V is applied across impedance Z. The impedance consists of a resistance and…

Q: 30 kW 240/0° V rms (t 0.75 lagging (+1)

Q: What is the load impedance if we require that maximum power be delivered to the load by the circuit?…

Q: In Figure 1, the power distribution system operates at 50 Hz, 260 V and is occurs. Find the total…

A: The power distribution system 50 Hz, 260 V and consists of three loads. Find the total real and…

Q: Time left 0:51:47 Z1 Z2 V sine sine B Let Z1 = 3+j4 ohm and Z2 = 3-j4 ohm. Let the current source…

A: Brief discussion: For the given AC circuit we need to calculate the value of thevenin equivalent for…

Q: A voltage and current applied to a single phase load is v= 27 cos (300t+20°) and i= 17 cos (250t-…

A: Voltage and current signals are given Find the active power and reactive power of the system.

Q: Two impedances, Z1 = 2+j6 Q and Z2 = 6-j12 0 are connected in series with a 220-V 60-Hz supply. At…

A: In this question, choose the correct option What is frequency if both impedance is connected in…

Q: For the circuit shown below, an impedance having a constant phase angle of -36.87" is connected…

Q: Puestion Thap The apparent power entering certain load z is 250VA at 퍼 the power factor of RMS…

A: Power entering the load is 250 VA RMS input voltage is 125 V. So,by formula P=VrmsIrms Putting the…

Q: 1. Calculate the complex power delivered to each passive component of the circuit in figure, and…

A: Complex power is a concept in electrical engineering used to describe the total power in an…

Q: Calculate the value of capacitance that must be connected in parallel with the load to correct the…

A: In the given question we need to calculate the value of capacitor to improve the power factor.

Q: A load of 240 +j 120 is connected to a source of 240 V with a phase angle of 300, through a…

A: Given data, The source of 240 V with phase angle 30o as below, Where, ZL = 240+j120 Ω

Question

**Problem Statement:**

Given \( v = 75 \cos(\omega t + 30^\circ) \, V \) and \( i = 5 \cos(\omega t - 15^\circ) \, A \) for the load impedance shown, what is the complex power, \( S \), dissipated by the load?

**Diagram:**

- The diagram depicts a rectangular impedance block with an arrow labeled \( i \) pointing to the right, indicating the direction of the current.
- Voltage \( v \) is shown across the block, with a positive sign on the left and a negative sign on the right.

**Answer Choices:**

- \( \bigcirc \) \( 375.0 \angle -45^\circ \, \text{VA} \)
- \( \bigcirc \) \( 187.5 \angle -45^\circ \, \text{VA} \)
- \( \bigcirc \) \( 187.5 \angle 45^\circ \, \text{VA} \)
- \( \bigcirc \) \( 375.0 \angle 45^\circ \, \text{VA} \)

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

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Sinusoids and Phasors of Alternating Circuit

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

I need it in 5 minutes please
Can someone please explain how to convert V1=-0.4220 to poloar phasor form? (V1=0.578<0)
For the given circuit: a.Find the total impedance ZTin polar form. b.Find the current I and the voltages VRand VLin phasor form. c.Find the power factor of the circuit, and indicate whether it is leading or lagging.
The e.m.f. 's from four generators are e = 4 7sin@t e = 2 cos ot, e =/7 cos(@t + 90° ) and 1 3 = 5/2 sin(ot – 90° ). The alternators are connected in series. e4 18. Find the rms value of the resultant e.m.f A 5.0 В 4.0 C 2.5 D None of the above. 19. If the resultant e mf is expressed in the form e = Asin(ot + B). Find Bin degrees. A 53.1 в 369 С -53.1 D -36.9
please answer d-e
please answer a-c
Load 1 Load 2 24 kW 40 kW pf = 0.8 lagging pf = 0.95 lagging %3D A 240-Vrms, 60 Hz source supplies two loads as shown above. Find the capacitance of a capacitor connected in parallel that will raise the power factor to unity. O 3.14 millifarad O 4.45 millifarad O 1.43 millifarad 5.74 millifarad
A load is supplied by a 230 V, 50 Hz source. The active power P and the reactive power Q consumed by the load are such that 1 kW SPS2 kW and 1 KVAR SQS2 KVAR. A capacitor connected across the load for power factor correction generates 1 KVAR reactive power. The worst case power factor after power factor connection is Options: 1. 0.447 lag 2. 0.707 lag 3. 0.894 lag 4.1
Please do it fast please
For a source which has load has the following characteristics: • Vrms = 125 20° V • P= 400 W • pf = 0.925 lagging What is the rms current and reactive power?
Problem: Five linear components of complex impedances Z1, Z2, Z3, Z4 and Z5 are connected as it is shown in the circuit bellow. They are supplied by a sine wave voltage source U. Z1 Z4 Il Z3 13 Z2 Z5 If it is known that: Z1 Z3 Z4 Z5 II 13 Ω Ω Ω Ω A A 30 + j5 30 + j10 30 + j15 0+ j25 0.470 - jo.114 0.002 - j0.007 A) Find the average power that each component dissipates; B) Find the average power absorbed by the circuit; C) Verify the results.
Two 660 V (rms) loads are connected in parallel. The two loads draw a total average power of 76.2 kW at a power factor of 0.8 leading. One of the loads draws 46 kVA at a power factor of 0.96 lagging