For the circuit of Figure, assume the source operates at a frequency of 100 rad/s. Calculate the average power delivered to a 100 resistor connected between terminals a and b in W. j60 2 www • 50 Ω 5/0° A 80 52 ob

For the circuit of Figure, assume the source operates at a frequency of 100 rad/s. Calculate the average power delivered to a 100 resistor connected between terminals a and b in W. j60 2 www • 50 Ω 5/0° A 80 52 ob

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 2.7P: Let a 100V sinusoidal source be connected to a series combination of a 3 resistor, an 8 inductor,...

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Concept explainers

Synchronous Motor

The synchronous motor is an AC electric type motor where at a steady-state the shaft rotation is synchronized with the supply current variable-frequency. To an integral number of AC cycles, the rotation period is exactly equal. The stator of the motor in the synchronous motor contains multi-phase AC electromagnets due to which a magnetic field is created that rotates in time with the oscillation of the line current. The rotor contains a permanent magnet and the rotor rotates in synchronization with the stator field at the same rate and provides the second synchronized magnetic field which is rotating in nature as a result. When the synchronous motor is supplied with independently excited multi-phase AC electromagnets on both the rotor and the stator, it is termed as a doubly-fed machine. The most widely used AC-type motors are the synchronous AC motor and the induction AC motors.

Question

Solve for the following problems. Round off your answers to 2 decimal places. Show your complete solution.

For the circuit of Figure, assume the source operates at a frequency of 100
rad/s. Calculate the average power delivered to a 1000 resistor connected
between terminals a and b in W.
j60 Ω
50 52
5/0° A
M
80 52
ob

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Step 1: Given information to calculate average power delivered to the 100 ohm resistor.

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Step 2: Determination of Thevenin equivalent voltage across the open terminals a-b.

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Step 3: Determination of Thevenin equivalent impedance from the open terminals a-b.

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Step 4: Drawing Thevenin equivalent circuit.

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Step 5: Determination of the average power delivered.

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