i need help thanks Efficiency (%)11010090807060504030201000 10 20 3040 50 60 70 80 90 100 110Motor Loading (%)The relationship between % of full load for each motor and power factor (they areall the same) is given by the graph below:0.80.7pf (lagging)0.60.50.4G Ş 3 * སྟྲ ཊྛ °0.30.20020406080100120Motor Loading (%)a) What is the minimum required transformer rating in kVA?b) By what percentage could the required transformer rating be reduced if acapacitor bank were installed in parallel with the motors, improving the powerfactor of the loadcentre to unity? Problem 4: Question1. Consider the three-phase loadcentre shown below:27.9 kVRMS400 VRMSMMMMotor 280 hpMotor 380 hpMotor 180 hpEach motor is rated at 80 hp but is only loaded mechanically as follows:Motor #% Loading140250370The relationship between % of full load for each motor and efficiency (they are allthe same) is given by the graph below:

The final answer is:Explanation:Step 1:Step 2:Step 3:Step 4:

Answered: Efficiency (%) 110 100 90 80 70 60 50…

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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Maz a) A sinewave is having a frequency of 50 Hz and instantaneous value of 250 Volts at 1.3 milli seconds. Find D The maximum value of sinusoidal voltage waveform and i) The value of voltage at 2.1 milli seconds. b) Determine the instantaneous equation for the voltage waveform shown in figure, if Vp=100 Volts, Time period is 10 milli seconds and 0 =40 degrees. on Vp Upload your Answers steps in the "Final Answer Submission" Link provided in the Moodle. a) (i) Maximnum value = a) (ii) Value of voltage at 2.1 ms = b) Angular frequency =
a) A sinewave is having a frequency of 100 Hz and instantaneous value of 100 Volts at 1.4 milli seconds. Find i) The maximum value of sinusoidal voltage waveform and ii) The value of voltage at 1.9 milli seconds. b) Determine the instantaneous equation for the voltage waveform shown in figure, if Vp=100 Volts, Time period is 10 milli seconds and 0 =30 degrees. Vp = 0 Upload your Answers steps in the "Final Answer Submission" Link provided in the Moodle. a) (i) Maximum value = a) (ii) Value of voltage at 1.9 ms = b) Angular frequency =
A generator is feeding the load. A second load will then be connected in parallel with the first load. The generator has an idle frequency of 61Hz and an Sp slope of 1MW/Hz. Load2 draws 800kW active power at 0.707 reverse power factor, while load1 draws 1000kW active power at 0.8 reverse power factor. What will be the operating frequency of the system after load 2 is connected? *Please explain the solution step by step
b) A newly built institution has bought a D.C. shunt generator to supply a library in order for students to study using electrical power from this machine when there is load shedding on the national grid. The total load of the library is 50 kW through the cables of total resistance of 0.04. The winding resistance of the generator is 5092 and the armature resistance is 0.072832. The library is to be supplied at 0.4kV. i. Draw the circuit diagram indicating all the above stated values. ii. Determine the load current (IL). iii.Determine the terminal voltage of the generator. iv. Determine the armature current. v.Determine the E.M.F. generated in the armature.
3. Two de generators each having linear characteristics that operate in parallel. One machine has a terminal voltage of 470V at no load and 220 V at a load current of 100A. while the other machine has a voltage of 480 V at no load and 200 V at 120 A. calculate the current in each generator and the bus bar voltage when the total load is 200A. What is the kilowatt output of each machine under this condition?
4. A 2 MVA, 2.3kV, three-phase Wye connected alternator operates at rated kVA at a power factor of 80 %. The dc armature winding resistance between terminals is 0.08-ohm. The field takes 70-A at 125-V from the exciter equipment. Friction and windage loss is 20-kW, iron loss 36-kW and stray power loss are 2.0-kW. Calculate the efficiency of the alternator. Assume the effective armature winding resistance is 120% of the dc resistance.
Terminal voltage of shunt G1 generator in idle operation is 500 V. G1. If the terminal voltage of the generator gives a load current of 600 A, it will be 470 V. falls. The idle operating voltage of the shunt G2 generator is 505 V. G2 generator terminal voltage drops to 470 V in case of 400 A load current. These two generators 400 They are connected in parallel to feed the kW load. Voltage-power of generators its characteristics are linear. According to this. a- Draw the connection diagram given in the question.
A short shunt compound generator delivers 150A at a terminal voltage is 230V. The shunt field current is 2.5A. The resistances of the armature, series field and diverter are 0.032-ohm, 0.015 ohm and 0.03 ohm, respectively. Calculate the electrical efficiency of the generator at this load.
Two shunt generators are connected in parallel to supply a current of 1500A. Each machine has a field resistance of 60 ohms and an armature resistance of 0.01 ohm. The generated emf by each machine are 455V and 460V, respectively. Calculate the power delivered by each machine.
Please answer with step by step math for Zin, Zout, and the load voltage. Thank you!
fast please answer in 10 minutes 3 phase synchronous motor connected to an infinite bus is operating with normal Excitation with decrease in load A Armature current decreases B. p.f. becomes legging C. Power factor becomes leading D. Load angle decreases E. Reactive power flows from motor to bus F Reactive power flows from bus to motor From this the correct answer is a. A, B, D, F b. A, B, D c. B, D, E d. C , D, E
3. A 250 KVA 60 cycle, 440 V, 3 phase, 8 pole altelnator has an ohmic resistance between terminals of 0.038 N. The ratio of effective to ohmic is 1.30. The friction and windage loss is 1900 watts; the core loss corresponding to the resultant field at 0.8 power factor is 3800 watts; the field takes 39 amperes at 125 V. At rated load and 0.8 power factor lagging, determine a) the efficiency b)the horse power input c) the torque on the driving shaft.

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