There will be a frequency, called the frequency, at which always, natural, R = 0 sometimes, natural, XL = Xc always, resonant, XL = Xc sometimes, resonant, R = 0
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- What is the expected frequency at resonance fs if v = 50, R = 2.2k ohms, XL = 1.0k ohms, XC = 1.0k ohms and frequency is 60Hz.Solve it in full details, Don't forget to plot the Bode & phase! Thanks.Series and parallel circuits are made from the same components as follows. A coil of resistance 300 ohm and inductance 100mH and a 4000pF capacitor are connected (i) in series and (ii) in parallel. (A) Find for each connection: (i) the resonant frequency, (ii) the Q-factor (iii) the impedance at resonance and (iv) draw the respective circuits and response curves.
- A series resonant circuit has R=5 Ω, L=20 mH and C=1 μF. Determine the values of: a. the resonant frequency in Hz. b. Q. c. bandwidth in Hz. d. the impedance of the circuit at the resonant frequency. e. the impedance of the circuit at dc. f. the impedance of the circuit as the frequency approaches infinity. Repeat question T6.4 for a parallel resonant circuit with R=10 kΩ, L=1 mH, and C=1000 pFDetermine the resonant frequency fr and the magnitude of the impedance |Z| for the circuit below at that frequency. What is the voltage amplitude VL across the inductor at resonance? Data: C1 = 5.0 μF, C2 = 25 μF, L = 50. mH, R = 200 Ω, and Vp = 10. V. fr = kHz |Z| = Ω VL = %A circuit has R = 12ohms, L = 50mH and C = 35.181 microfarad components. Determine the upper and lower frequencies and the resonance frequency. Determine also the bandwidth and the power at half power points if the supply voltage is 60V ac.
- IN A SERIES CIRCUIT HAVING EQUAL VALUES OF R, Xl AND Xc OF 11 OHMS, IF FREQUENCY IS REDUCED TO 0.411 OF ITS VALUE AT RESONANCE, WHAT IS THE NEW INDUCTIVE REACTANCEP3 For the series RLC circuit given in Figure 4 for Vs=10sinot R=2.2 2, L=100 uH and C=1000 uF a) Obtain the resonant frequency and the half-power frequencies. b) Calculate the quality factor and bandwidth. c) Determine the amplitude of the current at 60, 6 and 02. d) Plot the current amplitude versus frequency e) Use LTSPICE to plot frequency response.For the circuit shown , let R= 1kohm, L1 = 10mH, C1= 50nF. Calculate the values of Z, Phase Shift, I, Vr, Vc, VL , PR, PAPP and Power Factor. Do this for V1= 10 V at 10000Hz. Find resonant frequency. I have until the part b where you get 9.5mA, I just need the rest please
- A circuit has R = 12ohms, L = 50mH and C = 35.181 microfarad components. Determine the upper and lower frequencies and the resonance frequency. Determine also the bandwidth and the power at half power points if the supply voltage is 60 V ac.a. Given the Bode diagram in figure 2, obtain the following by showing horizontal and vertical line on the graph. i. gain cross over frequency ii. phase cross over frequency iii. Gain margin iv. Phase margin v. Comment on the stability of the system.Critically analyse the principles of circuit theory to explain series resonant circuit. Deriveexpression for resonant frequency and evaluate the resonant frequency and current flowing atresonance in a series a.c circuit consisting of a coil of resistance 4 ohm , inductance 70mH and capacitance0.06 uF if the supply voltage is 100V