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

[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....

Find the steady-state current i(t) in an RLC-ciruit with R=4 (ohms), L=0.5 H( henry), C=10-1F (farad),...

Find the steady-state current i(t) in an RLC-ciruit with R=4 (ohms), L=0.5 H( henry), C=10-1F (farad), which is connected to a source of EMF E(t)= 500 sin 2tV.

using the laplace transforms, find the charge and the current in a series LRC circuit where...

using the laplace transforms, find the charge and the current in a series LRC circuit where L = 1/2 h R = 10 ohms C = 1/30 f E(t) = 300V q(0) = 0 C i(0) = 0 A

In a R-L-C AC circuit, R= 5 Ohm, ZL= j 7 Ohm, ZC= -j 6 Ohm....

In a R-L-C AC circuit, R= 5 Ohm, ZL= j 7 Ohm, ZC= -j 6 Ohm. Supply voltage is v= 6 sin( 5 t). Calculate the ANGLE of Z.

consider a series RLC circuit with a resistor E = 43.0 ohm, an inductor L =...

consider a series RLC circuit with a resistor E = 43.0 ohm, an inductor L = 15.5 mH, a capacitor C = 0.0545 micro farads and an AC source that provides an RMS voltage of 0.301 V at 16.2 kHz what is the impedance of the circuit in ohms

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...

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

1. Find the Laplace transform of a.) f(t)=u(t−4)⋅e^t F(s)= 2. Find the inverse Laplace transform of...

1. Find the Laplace transform of a.) f(t)=u(t−4)⋅e^t F(s)= 2. Find the inverse Laplace transform of a.) F(s)=2e^(−3s)−e^(−2s)−3e^(−6s)−e^(−9s)/s f(t) = b.) F(s)=e^(−6s)/s^2−3s−10 f(t) = c.) F(s)=4e^(−9s)/s^2+16 f(t) =

Solve y'-3y=2e^t y(0)=e^3-e using Laplace transform.

Solve y'-3y=2e^t y(0)=e^3-e using Laplace transform.

In a series RLC circuit, R = 160ohm, L = 0.2H, C = 5uF and the...

In a series RLC circuit, R = 160ohm, L = 0.2H, C = 5uF and the voltage applied to the circuit is deltav (t) = (80V) sin (wt). Find the maximum potential difference between the ends of the inductor in case of resonance.