Please do the hand calculation required for this circuit Circuit-2: Response of RLC Circuit to multiple...
2. Charge-up response of series RLC circuit. No energy is stored in the 0.1H inductor or the 0.4uF capacitor before the switch in the circuit shown in the figure below is closed. Find S2 Key= A 2800 1. 0.4uF - 3. Discharge response of series RLC circuit. The circuit had been in steady state prior to moving the switch at t=0. Find = Key = Space Key C1 0.44F For both circuits: a) Is the response underdamped, overdamped, or critically...
use MATLAB functions to solve this problem The current, i, in a series RLC circuit when the switch is closed at t 0 can be determined from the solution of the V 2nd-order ODE to v t-0 d2i ndi 1 where R, L, and c are the resistance of the resistor, the inductance of the inductor, and the capacitance of the capacitor, respectively. (a) Solve the equation for i in terms of L, R, C, and t, assuming that at...
A second-order RLC circuit is shown in Fig. 1 0.05F 3Ω 2Ω 6A 6A 5H Fig.1 A second-order RLC circuit with a switch (1) Analytical part: derive the differential equations and solve them to find the response i(t for t>0. Specify whether it is an underdamped, critically damped or overdamped case. A second-order RLC circuit is shown in Fig. 1 0.05F 3Ω 2Ω 6A 6A 5H Fig.1 A second-order RLC circuit with a switch (1) Analytical part: derive the differential...
8.1 The resistance, inductance, and capacitance in a parallel RLC circuit are 1 kN, 12.5 H, and 2 uF, respectively. a. Calculate the roots of the characteristic equation that describe the voltage response of the circuit. b. Will the response be over-, under-, or critically damped? c. What value of R will yield a damped frequency of 120 rad/s? d. What are the roots of the characteristic equation for the value of R found in (c)? e. What value of...
Circuit 1 Transient response of a series RLC circuit The two switches in the circuit in Figure 8 operate synchronously. When switch 1 is in position "a", switch 2 is closed. When switch 1 is in position "b", switch 2 is open. Switch 1 has been in position "a" for a very long time. At 1-0, it moves instantaneously to position 4Ω t=0 2 8Ω 100mH 150V| 2Ω 60 V Figure 8: Circuit for Tasks 3 and 4 TASK 3...
how do i get the equation of v(t)? - 0 X € Microsoft Word - EC_2019F_2.X + → C moodle.ncku.cdu.tw/pluginfile.php/1508324/mod_resource/content/OVEC_2019F_assignment7920.pdf SES 75 ' NOKU HUD AN ORNGU O YouTube Th NCKU Moodle Facebook a tub lader YouTube do HTML+CSSRES D Problem 4: PSpice](25%) Obtain v(t) for 0 <t<4s in the circuit of Fig. 4.(10%) and verify your answer with PSpice and show your results.(15%) 0.4 F 14 622 13u(t) A A v (t)2012 39u(t) V Fig. 4 Problem 5: MATLAB|(25%)...
MATLAB question. Please answer all the questions and also upload the code by MATLAB. Thanks. Down vote if no code provided. For the circuit shown above, at the moment t = 0, the switch is closed, find w(t) for 120, No energy is stored in the capacitor and inductor at moment t-0 1. Write the dynamic model for RLC circuit after t> 0? a. Show all vour work and calculations b. Write down the characteristic equation of the transfer function...
x=1435 1) In the circuit you have a 250 mH inductor, a X 2 resistor and a 10 nF capacitor. Please find: a. Calculate roots of characteristic equation of the voltage response b. Is it over, under, or critically damped? c. What value of R would you add in series with X to yield a damped frequency of 12 krad/sec? d. What value of R would you add in series with X to yield a critically damped response? 1) In...
ONLY NEED SOLUTION TO QUESTION 4 PLEASE, THANK YOU (PLEASE MAKE SURE TO PLOT THE SOLUTION IN MATLAB) Part A (Based off week 7 Workshop content) Consider the RLC circuit where R = 5, C = 1, L = 4 and Vs = 8. 1. Use circuit analysis laws to show that the resistor's voltage and induc tor's voltage can be modelled as the system of ODEs: L RC i the system of ODEs 3. Verify your answer for question...
1. A paralll RLC circuit consists of a A series RLC circuit consists of the same 5000 Ω resistor, 1.25 H inductor, and 8 nF capacitor. a) Find the roots of the characteristic 2. 5000 Ω resistor, a 1.25 H inductor, and an 8 nF capacitor. a) Find the roots of the characteristic equation equation b) Is the response over-damped or b) Is the response over-damped or under-damped? under-damped? c) How would you need to change the resistance to get...