A resistor R = 4.0 omega, a capacitor C = 1 F and an inductor L...

A resistor R = 4.0 omega, a capacitor C = 1 F and an inductor L...

A resistor R = 4.0 omega, a capacitor C = 1 F and an inductor L = 4 H are connected in series Determine the charge on the capacitor and the current on the circuit at time t, if originally the capacitor is discharged and the current is 6A In the following cases: a) V = 0, classify the current and make the graph b) V = 120, in this case make the graph of the charge Q (t) and...

A resistor R = 4 ohms, a capacitor C = 1F and an inductor L =...

A resistor R = 4 ohms, a capacitor C = 1F and an inductor L = 4H are connected in series to an alternating current voltage source V (t) = 100cos(t) Volts. Determine the charge on the capacitor and the current on the circuit at the time, if originally the capacitor is discharged, and the current is 6A.

A circuit contains a resistor R 10 omega, an inductor L (1.6 mH), and a capacitor...

A circuit contains a resistor R 10 omega, an inductor L (1.6 mH), and a capacitor C (5.3 uF), wired in a circuit as shown in the figure. It is powered by an AC generator with Vrms =12 V and frequency f=2000Hz. what is the current Irms the generator provide?

A series circuit contains a resistor with R = 24 Ω, an inductor with L =...

A series circuit contains a resistor with R = 24 Ω, an inductor with L = 1 H, a capacitor with C = 0.002 F, and a 12 volt battery. Suppose the initial charge and current are both 0. (a) Find the charge and current at time t and graph them. (b) The battery is replaced by a generator producing a voltage of 12 sin(10t). Find the charge at time r and graph it.

An inductor (L = 400 mH), a capacitor (C = 4.43 µF), and a resistor (R...

An inductor (L = 400 mH), a capacitor (C = 4.43 µF), and a resistor (R = 500 Ω) are connected in series. A 46.0-Hz AC generator connected in series to these elements produces a maximum current of 335 mA in the circuit. a.) Calculate the required maximum voltage ΔVmax. b.) Determine the phase angle by which the current leads or lags the applied voltage. The current ______ the voltage by a magnitude of ______.

An LC circuit is built with an inductor L = 9.90 mH and a capacitor C...

An LC circuit is built with an inductor L = 9.90 mH and a capacitor C = 11.4 pF. If the capacitor voltage has its maximum value of V = 4.77 V at t = 0 s, what is the inductor current if the capacitor is fully discharged?

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...

Consider three different AC circuits (A−C) consist of a resistor, capacitor and inductor, connected in series...

Consider three different AC circuits (A−C) consist of a resistor, capacitor and inductor, connected in series to a function generator that creates a voltage of ∆v = 2.0 cos(ωt) Volts with ω = 2x104 rad/s. The circuits are: (A) R = 3 Ω; C = 25 μF; L = 300 μH (B) R = 4 Ω; C = 6.25 μF; L = 250 μH (C)R = 5 Ω; C = 5 μF; L = 500 μH Rank the circuits by...

will rate :-) A circuit has in series a battery E(t)= 80(V), an inductor of 1(H),...

will rate :-) A circuit has in series a battery E(t)= 80(V), an inductor of 1(H), a resistor of 2(omega), and a capacitor of 0.2(F). If the initial change and initial current are 0, find the charge at any time.

An L-R-C series circuit consists of a 60.0 Ω resistor, a 16.0 μF capacitor, a 4.00...

An L-R-C series circuit consists of a 60.0 Ω resistor, a 16.0 μF capacitor, a 4.00 mH inductor, and an ac voltage source of voltage amplitude 55.0 V operating at 1500 Hz . The current amplitude across the inductor, the resistor, and the capacitor is 0.814A...now, double the frequency and... a. Find new current amplitude across the inductor, the resistor, and the capacitor. b. Find new voltage amplitudes across the inductor, the resistor, and the capacitor.