For an RLC series circuit, R - 110 0, L 210 mH, and c- 0.29 uF. = 0.29 (a) If an AC source of variable frequency is connected to the circuit, at what frequency (in Hz) is maximum power dissipated in the resistor? Hz (b) What is the quality factor of the circuit? Q=
A sinusoidal voltage V(t) = (80.0V)sin(500t) is applied to a series RLC circuit with L= 700 mH, C = 80.0 uF and R = 90.0 12. (a) What is the impedance of the circuit in 2? (b) Find Imax (in A), o (in rad/s) and Q (in degrees) in i(t) = Imax sin(@t-0). (c) What is the ratio Pout for the resistor? (d) What is the average power dissipated by the resistor in W? (e) What is the resonant frequency...
R C L Doo HH HI Consider the RLC circuit shown. The power source provides a rms voltage of 210 V at a frequency of 75 Hz. The circuit values are as follows: R= 25 12, L = 30.0 mH, C1 = 95.0 uF, and C2 = 55.0 uF. a) (2 pts.) Determine the inductive reactance of this circuit. b) (2 pts.) Determine the capacitive reactance of this circuit. c) (2 pts.) Determine the total impedance of this circuit. d)...
In a series ???RLC circuit, ?=173R=173 ΩΩ, ??=150ΩXC=150Ω,
??=100ΩXL=100Ω, =100E=100 V (rms), and ?=74.7f=74.7 Hz.
In a series RLC circuit, R= 1732, Xc = 15012, X= 10012, E = 100 V (rms), and f = 74.7 Hz. (a) Find L. H( + 0.002 H) (b) Find C. uF (+0.2uF) (c) Find the rms current flowing in the circuit. A( + 0.002 A) (d) Find the phase shift . • (+0.2") (e) Find the power dissipated. W(+0.2 W) (f) Find the...
R сс, L Woo 11 H11 Consider the RLC circuit shown. The power source provides a rms voltage of 210 V at a frequency of 75 Hz. The circuit values are as follows: R= 25 S2, L = 30.0 mH, C1 = 95.0 uF, and C2 = 55.0 uF. a) (2 pts.) Determine the inductive reactance of this circuit. b) (2 pts.) Determine the capacitive reactance of this circuit. c) (2 pts.) Determine the total impedance of this circuit. d)...
8.1 The resistance, inductance, and capacitance in a parallel RLC circuit are 1 kN, 12.5 H, and 2 uF, respectively. a. Calculate the roots of the characteristic equation that describe the voltage response of the circuit. b. Will the response be over-, under-, or critically damped? c. What value of R will yield a damped frequency of 120 rad/s? d. What are the roots of the characteristic equation for the value of R found in (c)? e. What value of...
5.37 The current source in the parallel RLC circuit of Fig. P5.37 is given by is (1) = [10+5 cos(100t + 30°) _ cos(200t-30°)] mA. Determine the average power dissipated in the resistor given that R = 1 kQ, L = 1 H, and C = 1 μF. h(t) Figure P5.37: Circuit for Problem 5.37. 1. Fourier series and Parseval's theorem: Problem 5.37 from the textbook. Hint:Use the complex impedances of the elements to analyze the parallel circuit, determine the...
1. A series RLC circuit has R = 1009, L = 15 mH and C = 10 uF. It is connected to an AC course with f= 60.0Hz and Vmax = 110 V. A. Calculate the phase angle between the current and the voltage. B. What is the maximum value of the current at this frequency? C. What source frequency in Hz) is needed for the series RLC circuit to be at resonance?
In the following RLC circuit R= 100 O's C= 20 uF and L= 0.025 H. The peak voltage is 150 V and frequency is 200 Hz. mo R L С 2 (a)(8 pts) Find the impedance of the circuit and the phase angle: (b)(5 pts) The power factor (coso), the peak current, and the RMS current: (c)(6 pts) What is the peak voltage on each circuit element and the RMS power?
A parallel RLC circuit, with R= 2002, L = 0.28 H, and C = 3.57 uF, has an initial voltage Vo = 50V on the capacitor. Obtain the voltage function when the switch is closed at 1 = 0.