![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°)]](http://img.homeworklib.com/questions/89ba3af0-9bdc-11eb-932a-299678723d25.png?x-oss-process=image/resize,w_560)
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5.37 The current source in the parallel RLC circuit of Fig. P5.37 is given by is...
Q1 a) A parallel resonant RLC circuit is driven by a current source is = 20...
Q1 a) A parallel resonant RLC circuit is driven by a current source is = 20 cos(wt) x10-3A and shows a maximum response of 8 V at w = 1000 rad/s and 4V at w = 897.6 rad/s. Determine the value of passive components R, L and C. (15 Marks) b) The concept of resonance applies in several areas of science and Engineering. Resonance occurs in any circuit that has at least one inductor and one capacitor. Explain the condition...
Example #3 a) Use phasor diagrams to calculate the impedence of a parallel RLC circuit. b) How does the current depend...
Example #3 a) Use phasor diagrams to calculate the impedence of a parallel RLC circuit. b) How does the current depend on frequency? c) What is the phase angle between the voltage and the current? d) How does the power dissipated depend frequency? on
Example #3 a) Use phasor diagrams to calculate the impedence of a parallel RLC circuit. b) How does the current depend on frequency? c) What is the phase angle between the voltage and the current? d)...
3. RLC Parallel Circuit a) (7pts) For the circuit shown, determine the ODE relating the voltage...
3. RLC Parallel Circuit a) (7pts) For the circuit shown, determine the ODE relating the voltage (t) to the current source is(t) as well as the > L corresponding transfer function z(s) = (Hint: It might be easier to find the latter before the former.] (12pts) For R-0.802, C=0.25F and L=1H, determine the (1) impulse response, (ii) the unit step response and (111) the response to a pure sinusoid is (t) = cos(itt) Amperes (note that this last function is...
A multimeter in an AC RLC circuit records an rms current of 0.200 A and a...
A multimeter in an AC RLC circuit records an rms current of 0.200 A and a 65.0-Hz rms generator voltage of 27.5 V. The circuit contains a 40.0 Ω resistor, a 0.42 H inductor, and an unknown capacitor in series. The voltage is leading ahead of the current. a. Calculate the impedance of the circuit. ________________ b. Calculate the capacitive reactance. ________________ c. Calculate the capacitance. ________________ d. Calculate the average power dissipated in the circuit.
An RLC series circuit has a voltage source given by E(t)= 20 V, a resistor of...
An RLC series circuit has a voltage source given by E(t)= 20 V, a resistor of 245 Q, an inductor of 7 H, and a capacitor of 0.05 F. If the initial current is zero and the initial charge on the capacitor is 9 C, determine the current in the circuit for t> 0. |(t) = (Type an exact answer, using radicals as needed.)
Problem 2 In the parallel RLC circuit , let R = 8 kN, L = 0.2...
Problem 2 In the parallel RLC circuit , let R = 8 kN, L = 0.2 mH, and C = 8 uF. (a) Calculate wo, Q, and B. (b) Find w, and w2. (c) Determine the power dissipated at wo, w, and 02.
Problem 4: For the following RLC circuit, R-1.01 kQ, 100 mH and C-0.1 μF. 1. Find...
Problem 4: For the following RLC circuit, R-1.01 kQ, 100 mH and C-0.1 μF. 1. Find the transfer function H(jo) = Vo(jo)Vi(jo) 2. Find the gain of the transfer function | H(o) 3. Determin 4. Find the phase Ф(c) of the transfer function 5. Find Vo(t) if Vi(t) 100 cos(102 t) +60 cos (101 t) + 10 cos(106t) e the type of the filter. b) c) RVout Lo VoutVin Vin Vin Vin Vout Vout
5. In an RLC series circuit R = 10.0 Ω, C = 8.00 μF, L =...
5. In an RLC series circuit R = 10.0 Ω, C = 8.00 μF, L = 0.200 H, ω,-800 rads, -200 v a. Find ms b. Find the impedance Z of this circuit and the steady-state current amplitude I in the circuit. c. Find the phase φ of the steady-state current and the power factor for this circuit. Is the load of this circuit resistive, inductive or capacitive? d. Find the average rate at which power is dissipated in the...
. Consider the circuit below. The voltage source V1 10 cos(400t + 30°). = a. Calculate...
. Consider the circuit below. The voltage source V1 10 cos(400t + 30°). = a. Calculate the impedances of the capacitor and inductor b. Express the currents through the resistor, capacitor and indictor in phasor form e. What is the current provided by the volage soure? Expressedin hasor form V1 100 Ω 40 μF 300 mH
Using Matlab When several resistors are connected in an electrical circuit in parallel, the current through...
Using Matlab When several resistors are connected in an electrical circuit in parallel, the current through each of them is given by in=vs/Rnwhere in and Rn are the current through resistor n and its resistance, respectively, and vs is the source voltage. The equivalent resistance, Req, can be determined from the equation 1/Req=1/R1+1/R2+1/R3+.......+1/Rn. The source current is given by is , and the power, Pn, dissipated in each resistor is given by . is=vs/Req, and Pn=vsin. Write a program in...
Q1 a) A parallel resonant RLC circuit is driven by a current source is = 20 cos(wt) x10-3A and shows a maximum response of 8 V at w = 1000 rad/s and 4V at w = 897.6 rad/s. Determine the value of passive components R, L and C. (15 Marks) b) The concept of resonance applies in several areas of science and Engineering. Resonance occurs in any circuit that has at least one inductor and one capacitor. Explain the condition...
Example #3 a) Use phasor diagrams to calculate the impedence of a parallel RLC circuit. b) How does the current depend on frequency? c) What is the phase angle between the voltage and the current? d) How does the power dissipated depend frequency? on
Example #3 a) Use phasor diagrams to calculate the impedence of a parallel RLC circuit. b) How does the current depend on frequency? c) What is the phase angle between the voltage and the current? d)...
3. RLC Parallel Circuit a) (7pts) For the circuit shown, determine the ODE relating the voltage (t) to the current source is(t) as well as the > L corresponding transfer function z(s) = (Hint: It might be easier to find the latter before the former.] (12pts) For R-0.802, C=0.25F and L=1H, determine the (1) impulse response, (ii) the unit step response and (111) the response to a pure sinusoid is (t) = cos(itt) Amperes (note that this last function is...
An RLC series circuit has a voltage source given by E(t)= 20 V, a resistor of 245 Q, an inductor of 7 H, and a capacitor of 0.05 F. If the initial current is zero and the initial charge on the capacitor is 9 C, determine the current in the circuit for t> 0. |(t) = (Type an exact answer, using radicals as needed.)
Problem 2 In the parallel RLC circuit , let R = 8 kN, L = 0.2 mH, and C = 8 uF. (a) Calculate wo, Q, and B. (b) Find w, and w2. (c) Determine the power dissipated at wo, w, and 02.
Problem 4: For the following RLC circuit, R-1.01 kQ, 100 mH and C-0.1 μF. 1. Find the transfer function H(jo) = Vo(jo)Vi(jo) 2. Find the gain of the transfer function | H(o) 3. Determin 4. Find the phase Ф(c) of the transfer function 5. Find Vo(t) if Vi(t) 100 cos(102 t) +60 cos (101 t) + 10 cos(106t) e the type of the filter. b) c) RVout Lo VoutVin Vin Vin Vin Vout Vout
5. In an RLC series circuit R = 10.0 Ω, C = 8.00 μF, L = 0.200 H, ω,-800 rads, -200 v a. Find ms b. Find the impedance Z of this circuit and the steady-state current amplitude I in the circuit. c. Find the phase φ of the steady-state current and the power factor for this circuit. Is the load of this circuit resistive, inductive or capacitive? d. Find the average rate at which power is dissipated in the...
. Consider the circuit below. The voltage source V1 10 cos(400t + 30°). = a. Calculate the impedances of the capacitor and inductor b. Express the currents through the resistor, capacitor and indictor in phasor form e. What is the current provided by the volage soure? Expressedin hasor form V1 100 Ω 40 μF 300 mH
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