Find the load q(t) and the current i(t) in time t, if q(0)=0.01 Coulomb and t(0)=0.1...

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

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 s when L = 0.05 h, R = 3 Ω, C = 0.008 f, E(t) = 0 V, q(0) = 3 C, and i(0) = 0 A. (Round your answer to four decimal places.)-Determine the first time at which the charge on the capacitor is equal to zero. (Round your answer to four decimal places.)

A current source of i(t) =2cos(100t+90º ) A is connected in parallel with a resistor of...

A current source of i(t) =2cos(100t+90º ) A is connected in parallel with a resistor of R Ω, a capacitor of C μF, and an inductor of L mH. (In other words, all four elements are in parallel.) Determine the phasor voltage V across the current source, assuming the sign of the voltage is positive. If V = A + jB, what is the real part A? (Do not give a unit in your answer.) (Assume R = 60, L=550,...

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

1. In an oscillating LC circuit with C = 77.2 μF, the current is given by...

1. In an oscillating LC circuit with C = 77.2 μF, the current is given by i = (2.09) sin(3710t + 0.878), where t is in seconds, i in amperes, and the phase angle in radians. (a) How soon after t = 0 will the current reach its maximum value? What are (b) the inductance L and (c) the total energy? 2. A single-loop circuit consists of a 7.2 Ω resistor, 11.9 H inductor, and a 3.2 μF capacitor. Initially...

In a series RLC circuit, R = 100 Ω, L = 50 H and C =...

In a series RLC circuit, R = 100 Ω, L = 50 H and C = 2 μF. If the alternating emf applied is ε(t) = 20 Sin(5πt), find the rms current and the power factor for the circuit.  

In a series RLC circuit, R = 100 Ω, L = 50 H and C =...

In a series RLC circuit, R = 100 Ω, L = 50 H and C = 2 μF. If the alternating emf applied is ε(t) = 20 Sin(5πt), find the rms current and the power factor for the circuit.

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

1. Complete Table 1. Trial Average Current, i Charging Time, t Total Charge, Q=it Final Voltage,...

1. Complete Table 1. Trial Average Current, i Charging Time, t Total Charge, Q=it Final Voltage, V Capacitance, C1 = Q/V 1 0.0265 0.1s 0.00265 3.14 0.000844 2 0.035 0.15s 0.00525 3.14 0.00167 3 0.015 0.15s 0.00225 3.14 0.000717 Average Capacitance 1.077e-3 Standard Deviation (2 points x 8 = 16 points) 2. Complete Table 2. Trial Average Current, i Charging Time, t Total Charge, Q=it Final Voltage, V Capacitance, C2 = Q/V 1 0.035 0.1 0.0035 3.14 0.00111 2 0.005...

Let a 500 Ω resistor a 0.1 H inductor and a 2 μF capacitor be connected...

Let a 500 Ω resistor a 0.1 H inductor and a 2 μF capacitor be connected in parallel across an ac supply vs = 50 cos (4000 t) V, where t is in seconds. A) Draw a phasor diagram for the currents through each element at t = 0. B) Calculate the impedance of the circuit. C) From the phasor diagram, write the expression for the current coming from the supply as a function of time? D) From the expression...