please show all steps, use matlab to plot b and c
11 (onsider th followina RLC circuit . Assume C-100 L-70.3 m H 니} Vin CiYen (You may use t tre f...
For MATLAB users. Can you please type the answers for the MATLAB sections. 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 Vi VL RC 2. Solve the eigenvalues and eigenvectors of the coefficient matrix in the system of ODEs. 3. Verify your answer for question (2) by using the...
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...
Consider the RLC circuit where R = 5, C = 1, L = 4 and V = 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 し」L 2. Solve the eigenvalues and eigenvectors of the coefficient matrix in the system of ODEs. 3. Verify your answer for question (2) by using the eig function in MAT- LAB (make sure you comment on whether your solutions...
Problem 5: (20 points) Given the following circuit VIN L Vout R a) Write the loop equation for the circuit, and then find the transfer function Vout(s) H(S) = Express H(s) so that the coefficient of the s in the denominator is 1. Vin(s) b) If Vin(t) is 20u(t), find out(t). c) If Vin(t) is 20u(t) find the final value using the final value theorem (show your work), d) Assume (R/L) = 10, if the input is Vin(t) = 100...
I just need help with question 4 only: 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 VR 0 R RC L 2. Solve the eigenvalues and eigenvectors of the coefficient matrix in the system of ODEs. 3. Verify your answer for question (2) by using the eig...
PROBLEM 5. TUNING A CIRCUIT: PRACTICAL RESONANCE. Consider a forced RLC circuit with L-1 (H), R-10 (12) and C 丽0 (f). Suppose an alternating current supplies a electromotive force Et)100 coswt. The equation modeling the charge Q(t) on the capacitor is 650 Q"(t) 10Q650Q(t) 100 coswt. a. Is the damping over-, under- or critical? Find the form of the general solution. Identify the transient and steady-state parts of the solution. b. Find the amplitude C(w) of the steady-state piece (here...
PLEASE HELP 5. (Five points) Consider an RLC circuit for which an inductor of L-1 H and capacitor C= 0.1 F are present. For the given forcing function f (t), use the Laplace transforms to determine the charge Q (t) and current I (t) in the circuit at time t if initially(0)-0 and I (0) 0. Determine the charge and current in the case when R-8 and f (t) 10e. Show all your work solving this equation
1k luF 10nF VIN(t) C r(t) oUr Figure 1. Bandpass circuit Only for this assignment, you will do a small Multisim assignment. Remember, you still need to know Multisim operation even if you are in the hardware in homework group You will build the circuit shown in Fig. 1 in Multisim and then need to use AC analysis option to generate the bode plot. Choose frequencies in between 10 Hz and 100 kHz and select linear scale on magnitude plot....
9. MATLAB Problem: Use Matlab to find the convolution y(t) of f(t)2tu(t) and h(t) ut1u(t-1). You should submit a printout of the matlab code as an m-file with comments (using %) explaining the role of each line. You should also submit a plot ofy(t) for-l sts 4. You may find Computer Example C2.4 on page 137 useful EXAMPLE FROM BOOK IS BELOW. System Response to External Input: The Zero-Sta 2.4 QComputer Example C2.4 Find c(t) = f(t) * g(t) for...
For the RLC circuit at the right R - 1762, C-250 F, L -0.77 pH, and S(0) - 185 V sin [2747.25 MHz)t). Use this information to answer problems 9, 10, 11 and 12 [6] 9. Determine the reactance of the capacitor in the circuit. Answer: (a) 75. 7 62. (b) 87.8 2. (c) 95.4 2. (d) 125 12. (e) 150 (1) #12 please [6] 10. Determine the reactance of the inductor in the circuit. Answer: (a) 15.1 2. (b)...