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1. Consider the following A-C circuit: ¿(t) VE) & cT RE L=13,3 mH C=2650F R: 10.0...
Consider the RLC circuit below, with R= 20 12, L = 10 mH, and C =...
Consider the RLC circuit below, with R= 20 12, L = 10 mH, and C = 5 mF. The voltage source has a voltage amplitude of 26.0 V and an angular frequency of w = 500 rad/s. a) What is the total impedance of the circuit? b) Find the amplitude of the current, and the phase angle, d. c) Draw a phasor diagram of the impedances. Be sure to clearly label Z, R, XL, Xc, and 0. R C E
Problem #17 In the following circuit,L2-5.6 mH, R-5 Ohm, C-8.6uF, angular frequency w 10000 rad/s. The...
Problem #17 In the following circuit,L2-5.6 mH, R-5 Ohm, C-8.6uF, angular frequency w 10000 rad/s. The amplitude of the current through the resistor Ris 8.7 A. What is the amplitude of the current through C? [ 12 Submit Answer Tries 0/5 Problem #18 In the following circuit, 12- 8.7 mH, R-6.6 Ohm, angular frequency w 1000 rad/s, VB(t)- 2.8 cos(1000t). What is the circuit current waveform (t) _ cos_ t+ )? R ve ZL2 cos
In a series L-R-C circuit, the components have the following values: L = 20.0 mH, C...
In a series L-R-C circuit, the components have the following values: L = 20.0 mH, C = 140 nF, and R = 350 Ohm. The generator has an rms voltage 120 V and a frequency of 1.25 kHz. Part A Determine the average power supplied by the generator. P = W Submit My Answers Give Up Part B Determine the average power dissipated in the resistor. PR = W Submit My Answers Give Up
Help A series RLC circuit has components with the following values: L = 16.0 mH. C...
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A series RLC circuit has components with the following values: L = 16.0 mH. C = 82.0 nF, R = 15.0 ohm, and Delta V_max = 100 V, with Delta v = Delta V_max sin omega t. Find the resonant frequency of the circuit. 4.3939e03 Resonance occurs when the impedance is at a minimum. kHz Find the amplitude of the current at the resonant frequency. 6.67 A Find the Q of the circuit. 2.68 How is the Q related...
In the figure, R = 10.0 2, C = 6.08 MF, and L = 52.0 mh,...
In the figure, R = 10.0 2, C = 6.08 MF, and L = 52.0 mh, and the ideal battery has emf = 30.0 V. The switch is kept in position a for a long time and then thrown to position b. What are the (a) frequency and (b) current amplitude of the resulting oscillations? R & 000 (a) Number Units (b) Number Units
6.3 Exercises In Exercises 1-5 find the current in the RLC circuit, assuming that E(t) =...
6.3 Exercises In Exercises 1-5 find the current in the RLC circuit, assuming that E(t) = 0 fort > 0. 1. R = 3 ohms; L = 1 henrysC = .01 farads; Q. = 0 coulombs, 10 = 2 amperes. 11. Show that if E(t) = U coswt +V sin wt where U and V are constants then the steady state current in the RLC circuit shown in Figure 6.3.1 is w?RE(t) + (1/C - Lw?) E' (t) I where...
Consider a RLC circuit with R = 105 ohms, L = 518 mH, and C =...
Consider a RLC circuit with R = 105 ohms, L = 518 mH, and C = 0.200 microF. This circuit is driven by an AC source with f = 120 Hz, and Vmax = 60.0 V. (a) What is Imax? (b) What is its average power? (c) At what frequency is this circuit in resonance? (d) Calculate (a) and (b) again if the circuit is driven with the resonant frequency and Vmax is unchanged.
Consider the circuit below where L = 5 mH, R = 15 ? and E =...
Consider the circuit below where L = 5 mH, R = 15 ? and E = 12
V. At t = 0, the switch is closed. Find the time at which the rate
of energy dissipated in the resistor is equal the rate of magnetic
energy stored in the coil.
4. Consider the circuit below where L = 5 mH, R = 15 ? and E = 12 V. At t = 0, the switch is closed. Find the time...
1. A series RLC circuit has R = 1009, L = 15 mH and C =...
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?
2. Given the following circuit RL Do where C = inF, L = 1 mH and R1 = į00kf2. (a) Derive the expression for the tra...
2. Given the following circuit RL Do where C = inF, L = 1 mH and R1 = į00kf2. (a) Derive the expression for the transfer functionH(s)0 in erms of R, Ri and C. (b) At what frequency will the magnitude of Hju) be maximum? Write down the maxi- mum value (c) At what frequency w will the magnitude of H(jw) equal its maximum value divided by V2 (the half power)? (d) Derive the expression for the phase e(ju) both...
Consider the RLC circuit below, with R= 20 12, L = 10 mH, and C = 5 mF. The voltage source has a voltage amplitude of 26.0 V and an angular frequency of w = 500 rad/s. a) What is the total impedance of the circuit? b) Find the amplitude of the current, and the phase angle, d. c) Draw a phasor diagram of the impedances. Be sure to clearly label Z, R, XL, Xc, and 0. R C E
Problem #17 In the following circuit,L2-5.6 mH, R-5 Ohm, C-8.6uF, angular frequency w 10000 rad/s. The amplitude of the current through the resistor Ris 8.7 A. What is the amplitude of the current through C? [ 12 Submit Answer Tries 0/5 Problem #18 In the following circuit, 12- 8.7 mH, R-6.6 Ohm, angular frequency w 1000 rad/s, VB(t)- 2.8 cos(1000t). What is the circuit current waveform (t) _ cos_ t+ )? R ve ZL2 cos
In a series L-R-C circuit, the components have the following values: L = 20.0 mH, C = 140 nF, and R = 350 Ohm. The generator has an rms voltage 120 V and a frequency of 1.25 kHz. Part A Determine the average power supplied by the generator. P = W Submit My Answers Give Up Part B Determine the average power dissipated in the resistor. PR = W Submit My Answers Give Up
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A series RLC circuit has components with the following values: L = 16.0 mH. C = 82.0 nF, R = 15.0 ohm, and Delta V_max = 100 V, with Delta v = Delta V_max sin omega t. Find the resonant frequency of the circuit. 4.3939e03 Resonance occurs when the impedance is at a minimum. kHz Find the amplitude of the current at the resonant frequency. 6.67 A Find the Q of the circuit. 2.68 How is the Q related...
In the figure, R = 10.0 2, C = 6.08 MF, and L = 52.0 mh, and the ideal battery has emf = 30.0 V. The switch is kept in position a for a long time and then thrown to position b. What are the (a) frequency and (b) current amplitude of the resulting oscillations? R & 000 (a) Number Units (b) Number Units
6.3 Exercises In Exercises 1-5 find the current in the RLC circuit, assuming that E(t) = 0 fort > 0. 1. R = 3 ohms; L = 1 henrysC = .01 farads; Q. = 0 coulombs, 10 = 2 amperes. 11. Show that if E(t) = U coswt +V sin wt where U and V are constants then the steady state current in the RLC circuit shown in Figure 6.3.1 is w?RE(t) + (1/C - Lw?) E' (t) I where...
Consider the circuit below where L = 5 mH, R = 15 ? and E = 12
V. At t = 0, the switch is closed. Find the time at which the rate
of energy dissipated in the resistor is equal the rate of magnetic
energy stored in the coil.
4. Consider the circuit below where L = 5 mH, R = 15 ? and E = 12 V. At t = 0, the switch is closed. Find the time...
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?
2. Given the following circuit RL Do where C = inF, L = 1 mH and R1 = į00kf2. (a) Derive the expression for the transfer functionH(s)0 in erms of R, Ri and C. (b) At what frequency will the magnitude of Hju) be maximum? Write down the maxi- mum value (c) At what frequency w will the magnitude of H(jw) equal its maximum value divided by V2 (the half power)? (d) Derive the expression for the phase e(ju) both...
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