PLEASE USE THE LAPLACE TRANSFORM METHOD. A Series RLC circuit needs to be critically damped. The...

[Series circuit analogue: RLC circuit with nonzero resistance R and nonzero voltage E(t) as forcing function...

[Series circuit analogue: RLC circuit with nonzero resistance R and nonzero voltage E(t) as forcing function is analogous to a forced damped spring/mass system.] Consider the RLC circuit with inductance L = 8 henrys, resistance R = 16 ohms, capacitance C = 0.025 farads, and voltage E(t) = 17 cos 2t volts. (a) Find the current in the circuit for t > 0, given that at time t = 0 the capacitor is uncharged and there is no current flowing....

Consider a simple series RLC circuit with the following values for the resistance, inductance, and capacitance:...

Consider a simple series RLC circuit with the following values for the resistance, inductance, and capacitance: R = 110 Ω (ohms), L = 1 H (henries), and C = 0.001 F (farads). Furthermore, a battery provides an external voltage, e(t), into the circuit equal to 7 However, this external voltage e(t) is not always flowing into the circuit. Initially, the switch for the circuit is open and there is no charge or current flowing through the circuit. At time t...

An RLC series circuit has a 210 Ω resistor and a 25.0 mH inductor. At 8300...

An RLC series circuit has a 210 Ω resistor and a 25.0 mH inductor. At 8300 Hz, the phase angle is 45.0°. Part a (the impedance) had an answer of 296.58 ohms, but I can't seem to figure out part b: Find the minimum possible capacitance (in nF) of the circuit.

A RLC circuit, L=1H, C=0.002F, R=5 ohm q(0)=0, i(0)=0 E(t)=10-10u(t-0.5) Find q(t) using Laplace transform

A RLC circuit, L=1H, C=0.002F, R=5 ohm q(0)=0, i(0)=0 E(t)=10-10u(t-0.5) Find q(t) using Laplace transform

A series RLC circuit has inductance L = 12 mH, capacitance C = 1.6 ?F, and...

A series RLC circuit has inductance L = 12 mH, capacitance C = 1.6 ?F, and resistance R = 1.5 ? and begins to oscillate at time t = 0. a)       At what time t will the amplitude of the charge oscillations in the circuit be 50% of its initial value? (Note that we do not know that initial value.) b)      How many oscillations are completed within this time?

Given an RLC series circuit as shown in Figure Q2(b), where L = 5/3 H, R...

Given an RLC series circuit as shown in Figure Q2(b), where L = 5/3 H, R = 10 Ω , C = 1/30 F, and E(t) = 300 V. A): Find the charge across the capacitor in an RLC series circuit. Assume the initial charge on the capacitor is 0 C and the initial current is 9 A. B): What happens to the charge on the capacitor over time? (Hint: Explain the meaning on the answer obtained in I NEED...

The followings are parameters of a RLC-series circuit. Use the given information to answer. R =...

The followings are parameters of a RLC-series circuit. Use the given information to answer. R = 7.5 Ω L = 8.2 x 10-3 H C = 1.0 x 10-5 F Frequency f = 450 Hz Peak voltage V0 = 15V Find the following: (a) rms voltage across the resistor (b) rms voltage across the inductor (c) rms voltage across the capacitor (d) power factor of the circuit (e) phase angle (f) power dissipated (g) resonant frequency of the circuit

use multisim please Design:Create an RLC series circuit using the same source voltage (Vs) as input...

use multisim please Design:Create an RLC series circuit using the same source voltage (Vs) as input voltage equal to: vi(t) = 6 sin (400 pi * t) Select any R, L, and C you want as long as the measured (with the Watt meter) power factor is equal to 0.8(+/- 0.02). You can select any unique values of R, L, and C as long as you have at least 3 non-zero decimal places for each component. Show the Multisim schematic...

We have a RLC series circuit. On this circuit R=10ohm, L=85mH and C=1uF regarding to this...

We have a RLC series circuit. On this circuit R=10ohm, L=85mH and C=1uF regarding to this values; * What should F0 has to be for making this circuit work at resonance position? * What is XL value with using F0 frequency? * What is I value when the circuit is at resonance position? * What are voltages on VR, VXL, and VXC components when the circuit is on resonance position? and phasor diagram? And regarding all of this questions what...

Consider a RLC series circuit that satises the equation Ldi/dt + Ri + 1/C (integral) idt...

Consider a RLC series circuit that satises the equation Ldi/dt + Ri + 1/C (integral) idt = v(t), with i(t) and v(t) sinusoidal signals, the excitation signal v(t) = 200 sqrt(2) cos(w(t - 4.1667)) with t in [ms], and the parameters R = 100 [ ], L = 1 [H], C = 5 [C] and f = 60 [Hz]. Use the properties of the phasor transformation to: (a) determine the equivalent impedance of the system (b) determine the mathematical expression...