Question 4: The rms current in the circuit below is shown as a function of the frequency of the driving Emf. Capacitor C

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Question 4 The Rms Current In The Circuit Below Is Shown As A Function Of The Frequency Of The Driving Emf Capacitor C 1 (51.8 KiB) Viewed 21 times

Question 4: The rms current in the circuit below is shown as a function of the frequency of the driving Emf. Capacitor C = 0.190 uF and the total resistance R-233 O. (HINT: you want to run your circuit at resonant frequency because you'll get your most current flowing thru circuit) a) Calculate the rms value of the driving EMF EG ER (Vrms). Note that the curve passes through a gird intersection point. (Hint: find max current which is at resonant frequency) L 04 0.35 b) Calculate the inductance in the circuit. 03 0.25 in AS 02 c) Calculate the average power dissipated in the circuit (if the circuit is run at it's resonant frequency) 0.15 01 0.05 100 200 400 500 300 TH 800