A series RC circuit with R = 5 W and C = 0.02 F is connected...

A series RC circuit with R = 5 W and C = 0.02 F is connected with a battery of E = 100 V. At t = 0, the voltage across the capacitor is zero.

(a) Obtain the subsequent voltage across the capacitor.

(b) As t → ∞, find the charge in the capacitor.

(DIFFERENTIAL EQUATIONS)

SOLVE THIS USING MATLAB SOLVE THIS USING MATLAB

Expert Solution

Manojponduru answered 1 year ago

Driven RC circuit in parallel. A capacitor C is connected in parallel to a resistor R...

Driven RC circuit in parallel. A capacitor C is connected in parallel to a resistor R and an AC source providing a voltage v(t) = V sin(ωt). (a) Make a phasor diagram at time t showing all relevant based on Kirchhoff’s rules. (b) Find the impedance of this circuit and make a plot of Z vs. ω. (c) What are the small and large frequency behaviors of the peak capacitor and resistor currents? (d) What is the phase difference between...

A series RC circuit is connected in parallel to a 5 volt DC voltage source, where...

A series RC circuit is connected in parallel to a 5 volt DC voltage source, where resistance R=1 M ohm and capacitance C= 1 microfarad. If at the start of operation, voltage across the capacitor is 5 volts, calculate the voltage across the capacitor at t=2 seconds. Also sketch the instantaneous voltage across the resistor. using differential equation.

If the capacitor in an RC circuit is replaced by two identical capacitors connected in series,...

If the capacitor in an RC circuit is replaced by two identical capacitors connected in series, then find the CORRECT statement. Select one: a. The time constant will be tripled b. The time constant will decrease by a factor of 2 c. The time constant will be unchanged d. The time constant will decrease by a factor of 4 e. The time constant will be doubled

Consider an RC circuit with resistance R and capacitance C. The circuit is stimulated with a...

Consider an RC circuit with resistance R and capacitance C. The circuit is stimulated with a pulse of amplitude A and width T. The purpose of this study is to understand what happens to the impulse response, capacitor voltage, and resistor voltage for various resistor values: 600 ?, 1000 ?, and 1200 ?. The name of the MATLAB script will be called project2a. Excite the circuit with a rectangular pulse voltage of amplitude=5 V and pulse width of 10 ms....

Given a RC circuit in series , at time t=0, power supply 4v is connected to...

Given a RC circuit in series , at time t=0, power supply 4v is connected to the circuit causing charging of capacitor, determine at instant 8 seconds : Where C = 10 mF, R = 4 kOhms, and consider all initial values equal to ZERO. a) Tension on capacitor; b) Tension on resistor; c) total current.

In the R-L circuit below, a resistor R (8.0 Ω) is connected in series to an...

In the R-L circuit below, a resistor R (8.0 Ω) is connected in series to an inductor L (24.0 mH) and a battery ε (12.0 V). When the circuit is closed, current grows with time. (a) What is the time constant of the circuit? (b) What is the current in the circuit at one time constant? (c) What is the maximum magnetic energy in the circuit? (d) At what time after closing the switch will the magnetic energy be 50%...

An R-C circuit with R = 100 ohm and C = 3 mF is connected to...

An R-C circuit with R = 100 ohm and C = 3 mF is connected to a 90 V source of emf. At t = 0 the switch is closed and the capacitor begins to charge. a) How much energy (in J) is stored in the capacitor at t = 0.7 s? b) What is the largest amount of energy that can be store in the capacitor?

A parallel plate air capacitor with a capacitance of C (0.02 F) is connected to a...

A parallel plate air capacitor with a capacitance of C (0.02 F) is connected to a 12V battery and charged. The capacitor is then disconnected from the battery and a dielectric with a dielectric constant of k (3.2) is inserted between the plates. How much energy will be stored in the capacitor after inserting the dielectric (6 points)? please explain step by step

In a series oscillating RLC circuit, R =16.0 W, C =5.0 mF, L =20.0 mH, and...

In a series oscillating RLC circuit, R =16.0 W, C =5.0 mF, L =20.0 mH, and e=emsin (wt) with em =45.0 V and frequency of oscillation is 50 Hz. For time t= 0.4 s find (a) the rate PCat which the energy in the capacitor is changing, and (b) the rate PRat which energy is being dissipated in the resistor.

Consider an RC circuit with E = 12.0 V ,R = 165 Ω , and C...

Consider an RC circuit with E = 12.0 V ,R = 165 Ω , and C = 55.6 μF . A) Find the time constant for the circuit. B) Find the maximum charge on the capacitor. C) Find the initial current in the circuit.

Question