need number 11 Problem 11A ferromagnetic ring has a uniform cross-sectional area of 2000 mm² and amean circumference of 1000 mm. A hysteresis loop obtained for the specimenis plotted to scales of 10 mm = 0.1 T and 10 mm = 400A/m and is found tohave an area of 104 mm². Determine the hysteresis loss at a frequency of 80Hz.Problem 12In an LR-C network, the capacitance is 10.61 nF, the bandwidth is 500 Hz, andthe resonant frequency is 150 kHz. Determine for the circuit the Q-factor, thedynamic resistance, and the magnitude of the impedance when the supplyfrequency is 0.4% greater than the tuned frequency.Problem 13Find is the resistance of a 29-m-long piece of 18-gauge copper wire having a1.024-mm diameter.Problem 14Consider a Darlington amplifier. In the self-bias network, the biasing resistancesare 220k ohms and 400 ohms. What can be the correct input resistance value ifhfe = 50 and emitter resistance = 10 ohms?

Cross sectional area = 2000 mm2 = 2000×10-6 m2 Mean circumference = 1000 mm = 1000×10-3 m Frequency…

A ferromagnetic ring has a uniform cross-sectional area of 2000 mm² and a mean circumference of 1000 mm. A hysteresis loop obtained for the specimen is plotted to scales of 10 mm = 0.1 T and 10 mm = 400A/m and is found to have an area of 104 mm². Determine the hysteresis loss at a frequency of 80 Hz.

A ferromagnetic ring has a uniform cross-sectional area of 2000 mm² and a mean circumference of 1000 mm. A hysteresis loop obtained for the specimen is plotted to scales of 10 mm = 0.1 T and 10 mm = 400A/m and is found to have an area of 104 mm². Determine the hysteresis loss at a frequency of 80 Hz.

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

Chapter4: Transmission Line Parameters

Section: Chapter Questions

Problem 4.14P

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