Find the charge on the capacitor in an LRC-series circuit at t = 0.02 s when...

Find the charge on the capacitor in an LRC-series circuit at t = 0.02 swhen L...

Find the charge on the capacitor in an LRC-series circuit at t = 0.02 swhen L = 0.05 h, R = 3 Ω, C = 0.02 f, E(t) = 0 V, q(0) = 2 C and i(0) = 0 A.(Round your answer to four decimal places.) C Determine the first time at which the charge on the capacitor is equal to zero. (Round your answer to four decimal places.) s

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 an LRC series circuit, the components have the following Values: L=0.4 H, C=600 μF, R=200...

In an LRC series circuit, the components have the following Values: L=0.4 H, C=600 μF, R=200 Ω, V=30 V and frequency 1.5 kHz. Calculate the impedance of the circuit Calculate the maximum voltage across the resistor, the inductor and the capacitor

For the following LRC circuit with periodic electric source v(t), find the steady-periodic current in the...

For the following LRC circuit with periodic electric source v(t), find the steady-periodic current in the form isp(t) = I0 sin(ωt − δ), where I0 > 0 and 0 ≤ δ < 2π. (Round numerical values to two decimal places.) *The answer should show sin (no cos in the answer). R = 30, L = 10, C = 0.02, v(t) = 30 cos(2t)

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

A series circuit has a capacitor of 10−5 F, a resistor of 3 × 102 Ω,...

A series circuit has a capacitor of 10−5 F, a resistor of 3 × 102 Ω, and an inductor of 0.2 H. The initial charge on the capacitor is 10−6 C and there is no initial current. Find the charge Q on the capacitor at any time t. Q(t)=

An L-R-C series circuit has L = 0.800 H, C = 4.00 μF, and R =...

An L-R-C series circuit has L = 0.800 H, C = 4.00 μF, and R = 320 Ω. At t = 0 the current is zero and the initial charge on the capacitor is 2.80 × 10−4 C. How much time does it take for each complete current oscillation after the switch in this circuit is closed? What is the charge on the capacitor after the first complete current oscillation?

DIFFERENTIAL EQUATIONS 1. Find the maximum charge, Q, that can be stored in a capacitor of...

DIFFERENTIAL EQUATIONS 1. Find the maximum charge, Q, that can be stored in a capacitor of an RLC circuit connected in series to a 300 V voltage source, if it is known that L= 5/3 H, R=10 ohms, C =1/30 F. Furthermore, we have that Q(0)=0 C, and i(0)=0 A. Remember that the current i (t) = dQ / dt

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...

Voltage V = V0sin (ωt) is applied to the LRC series circuit, where V0 = 0.85...

Voltage V = V0sin (ωt) is applied to the LRC series circuit, where V0 = 0.85 V, ω = 7541 (1/s) and t is the time in seconds. In the circuit L = 20.0 mH, R = 22.7 kΩ and C = 0.42 μF. a) Determine the impedance and phase difference of the circuit. b) What is the effective power of the circuit? c) What are the effective currents and effective voltages for each component?