WIth the following two circuits (Circuit A and B), please derive the equations for the magnitude and phase of the capacitor and inductor voltage as a function of angular frequency ω, and plot the values in MATLAB or Excel.
Both circuits have the voltage set to AC Amplitude 1 and an AC Phase to 0 degrees.
Circuit A:
Circuit B:
Thanks.
WIth the following two circuits (Circuit A and B), please derive the equations for the magnitude...
Derive equations 1 and 2, thank you!
When you have a RC series circuit in an AC source of angular frequency ω (ω = 2πf), you can calculate the capacitance (C) from the equation: max, where VmarR is the amplitude of the voltage across the resistor and Vmax.c is the amplitude of the voltage across the capacitor. [You have to derive this equation in your report.] Similarly, when you have a RL series circuit in an AC source of angular...
Please include your matlab code and plot, as well as the
derivation of the expressions for voltages across both the resistor
and inductor themselves. Really need help understanding this!
5. Consider the RL Circuit shown below. Assume the excitation is a 10 kHz sine wave with amplitude of 1 volt. Derive expressions for the voltages across the resistor and the inductor as time functions. Plot the voltages across the resistor and the inductor over two periods using MATLAB and a...
Homework: AC Circuits Deadline: 100% until Friday, April 12 at 11:59 PM AC Circuit 2 V3456 A circuit is constructed with an AC generator, a resistor, capacitor and inductor as shown. The generator voltage varies in time as Va -Vb Emsinut, where εm-120 V and ω-463 radians/second. The values for the remaining circuit components are: R-95 Ω, C-477 μF. The value for L is unkown. What is known is that the voltage across the generator leads the current in the...
Part A: What is the impedance of the circuit?
Part B: What is the current amplitude?
Part C: What is the phase angle of the source voltage with
respect to the current?
Part D: Does the source voltage lag or lead the current?
Part E: What is the voltage amplitude across the resistor?
Part F: What is the voltage amplitude across the inductor?
Part G: What is the voltage amplitudes across the capacitor?
Constants You have a resistor of resistance...
An ac series circuit containing a capacitor, inductor, and resistance is found to have a current of amplitude 0.300 A for a source voltage of amplitude 10.0 V at an angular frequency of 200.0 rad/s. The total resistance in the circuit is 18.0 Ω. What is the power factor for the circuit?
Problem: (1) For the single phase AC circuit shown below, calculate voltage phasor across the load showing amplitude and phase angle for a (reference) source voltage of 220 V and 0 degree. Also, attach your MultiSIM simulation showing the voltage amplitude across the load. Compare simulated and calculated values. Load Bus of an Industrial Facility (equivalent of Electrical Motors and power factor correction Cap in parallel). R1 L1 Vload-? 1 3.0ohm 2 10mH 3 4.7mH 4 20ohm R2 +220V, 60...
Determine and graph the output voltage magnitude, and phase versus frequency for the circuit shown below. The voltage source Vi (t) -1 sin (wt) volts. In your numerical calculations, limit the frequency range from 100 KHz to 250 KHz. out R1 20k 1000uH V1 C11n L1 0
Problem 2. Determine and graph the output voltage magnitude, and phase versus frequency for the circuit shown below. The voltage source V1 (t)-1 sin (? t) volts. 00 KHz to 250 KHz. In your numerical calculations, limit the frequency range from 1 out R1 20k 1000uH V1 1n L1
answer using Matlab or Octave please
Fig.ACNodal2 In the circuit, R1-8 Ohm, R2 = 10 Ohm, R3 - 4 Ohm, the reactances of inductors and capacitor are XL1=4 Ohm, XL21 Ohm, XC1=2 Ohm; voltage source amplitude and phase are 11 V and O rad. Using nodal analysis, find the following 1) The amplitude of the potential at the top lead of inductor L1. (Unit: V) Submit Answer Tries 0/3 2) The phase of of the potential at the top lead...
2. Given the following circuit RL Do where C = inF, L = 1 mH and R1 = į00kf2. (a) Derive the expression for the transfer functionH(s)0 in erms of R, Ri and C. (b) At what frequency will the magnitude of Hju) be maximum? Write down the maxi- mum value (c) At what frequency w will the magnitude of H(jw) equal its maximum value divided by V2 (the half power)? (d) Derive the expression for the phase e(ju) both...