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Can you solve this with Matlab Question2 The resonant frequency f (inHz) for a circuit is given by Calculate the resonant frequency when L = 0 2 henrys, R-1500, R2 = 1800 ohms, C-2x106 farads Question2 The resonant frequency f (inHz) for a circuit is given by Calculate the resonant frequency when L = 0 2 henrys, R-1500, R2 = 1800 ohms, C-2x106 farads
For values of L = 1H; C=1nF; R = 5kΩ, what is the resonant frequency of the circuit? What is the natural frequency of the circuit? What is the Q value? If the coil is wound from 42 gauge copper wire, what is the length of wire used in the coil? Fig Q1
Find the resonant frequency for a series RLC circuit where R = 18.0 Ω, C = 9.7 µF, and L = 8.30 mH. Group of answer choices 3.51E+2 Hz 5.61E+2 Hz 7.93E+2 Hz 1.98E+3 Hz 1.76E+3 Hz
Course Contents 》 IIW17 Resonant F Determine the resonant frequency of the circuit as as shown below, given that R 107Q, L 3 mH, and C-1 uF. The resonant frequency of the circuit : (rad/s) Incorrect. Tries 2/3 Previous Tries Post Discussion O Type here to search 5 6 WE R T YU
8. For the RLC circuit shown, Find the half power frequencies, the resonant frequency, the bandwidth, and the quality factor in terms of R, L and C. it) R Vin(o) (+
ircuit for which R = 20 14. (a) Calculate the resonant angular frequency of an RLC series circuit for which R= 200 and C = 4.0uF. (b) If R is changed to 300 , what is the resonant angular frequency?! , L = 75 mH , -O- (a) senes (b) time current direction L -C 15. A transformer has a primary coil of 500 turns and a secondary coil of 10 turns. If Vprimary = 120 V rms, and the...
MATLAB code please Problem 7 The resonant frequency of a series RLC circuit is w= LC 2L with L = 5 H and C = 10-4 F, determine the value of R that causes the resonant frequency to be 1 kHz. Use the Newton-Rhapson, bisection, and false position methods.
0.552 +0.5 102 s² + +1 S In Fig. 4.4, R=0.2 M2, C=25 pF and L=0.04 H. Show that the transfer function H(s) is: 1,(s) H(S) = I(S) 1012 10 (a) Plot the pole-zero diagram of H(s). (b) What filter is given by H(s)? Why? (c) Determine the resonant frequency 0., the quality factor Q, the cut-off frequencies 01 and 02 and the bandwidth B. i (t) w ift) R Fig. 4.4 jo
FrqRsp07 80 pF + Given: A series-resonant filter with a resonant frequency of 200 kHz has a quality factor of 15. Vi is the input voltage and V is the output voltage. Required: a. Determine the inductance value, L, in mH for the filter. b. Determine the resistance value, R, in k for the filter c. Determine the filter's gain in decibels, Gdb, at a frequency of 120 kiIz. d. Determine what type of filter this is. Solution: L= C...
A series RLC circuit with L = 17.5 mH, C = 3 µF, and R = 15 Ω is driven by a generator with a maximum emf of 120 V and a variable angular frequency ω. Find the resonant frequency ω0. Answer in units of rad/s.