In a series `RC` circuit with an `AC` source (peak voltage `E_(0)=50 V` and `f=50//pi Hz),R=300 Omega`. C=25 muF`.Then:

In a series LCR circuit with an AC source of effective voltage 50 V , frequency nu= 50 //pi Hz R= 300 Omega C = 20 muF and L = 1.0 H. Find the rms current in the circuit.

In a series LCR circuit with an AC source (E_("rms")50V and v=50//pi Hz), R= 300Omega, C=0.02 mF,L=1.0 H , which of the following is correct

In a series RC circuit with an AC source, R = 300 Omega, C = 25 muF, epsilon_0 50 V and v = 50/((Pi) Hz . Find the peak current and the average power dissipated in the circuit.

(a) In a series L-C-R circuit with an AC source, R = 300 Omega , C = 20 muF, L= 1.0 H, V_(0) = 50sqrt2V and f = 50/pi Hz . Find (i) the rms current in the circuit and (ii) the rms voltage across each element. (b) Consider the situatiuon of the previous part. find the average electric field energy stored in the capacitor and the average magnetic field energy stored iun the coil .

Consider the R-L-C circuit given below. The circuit is driven by a 50 Hz AC source with peak voltage 220 V. If R = 400 Omega , C = 200 mu F and L = 6 H, the maximum current in the circuit is closest to

In a series LCR circuit with an ac source of 50 V,R=300 Omega ,frequency v=50/piHz .The average electric field energy, stored in the capacitor and average magnetic energy stored in the coil are 25 mJ and 5 mJ respectively.The RMS current in the circuit is 0.10 A .Then find

In a series LCR circuit with an AC source, R = 300 Omega, C = 20 muF, L = 1.0 henry, epsilon_(rms) = 50 V and v = 50/(pi) Hz . Find (a) the rms current in the circuit and (b) the rms potential differences across the capacitor, the resistor and the inductor. Note that the sum of the rms potential differences across the three elements is greater than the rms voltage of the source.

In an RC series circuit(in fig), the rms voltage of source is 200V and its frequency is 50 Hz, if R=100 Omega and C=(100)/(po) (mu)F , find (a) inpedance of the circuit. (b) power factor angle, (c ) power factor, (d) current, (e) maximum current (f) voltage across R, (g) voltage across C, (h) maximum voltage across R, (i) maximum voltage across C, (j) ltPgt, (k) gtP_(C )lt . (m) i(t) , V_(R )(t),and V_(C)(t) .

In an RC series circuit connected across and AC source of 150 V 70 Hz, the value of R is 820 Omega and voltage across it is 100V. Calculate the voltage drop across capacitor connected in series.