b. A resistive element of R = 202, an inductive coil of L = 300 mH and a condenser of C = 50µF are connected in series to form a RLC branch. A voltage v = 100 sin 314t V is applied to RLC branch. i. Evaluate the expression for i as a function of time employing numerical co-efficients. ii. Evaluate the expression of p as a function of time employing numerical co-efficients. iii. Write the expression for the real power. Find the average value of instantaneous real power. iv. Write the expression for the reactive power. Find the average value of instantaneous reactive power. c. Determine the average value and RMS value of the periodic current waveform shown in Fig. 5(c). Also find the form and peak factor. 10.. t() - 10-

b. A resistive element of R = 202, an inductive coil of L = 300 mH and a condenser of C = 50µF are connected in series to form a RLC branch. A voltage v = 100 sin 314t V is applied to RLC branch. i. Evaluate the expression for i as a function of time employing numerical co-efficients. ii. Evaluate the expression of p as a function of time employing numerical co-efficients. iii. Write the expression for the real power. Find the average value of instantaneous real power. iv. Write the expression for the reactive power. Find the average value of instantaneous reactive power. c. Determine the average value and RMS value of the periodic current waveform shown in Fig. 5(c). Also find the form and peak factor. 10.. t() - 10-

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 2.1MCQ: The rms value of v(t)=Vmaxcos(t+) is given by a. Vmax b. Vmax/2 c. 2Vmax d. 2Vmax

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