1.
A) Write the nodal analysis and mesh equations that would permit you to solve for V2(s) Assume zero initial conditions
B) Solve for V2(s) using nodal analysis
C) Solve for V2(s)using mesh analysis.
2.
A) Find an expression for v0(t) given that v(t) = e-αtu(t) and iL(0) = I0A.
Write the nodal analysis and mesh equations that would permit you to solve for V2(s) Assume zero initial conditions
Sheet1 Control 1. Solve the following differential equations using Laplace transforms. Assume zero initial conditions dx + 7x = 5 cos 21 di b. + 6 + 8x = 5 sin 31 dt + 25x = 10u(1) 2. Solve the following differential equations using Laplace transforms and the given initial conditions: de *(0) = 2 () = -3 dx +2+2x = sin21 di dx di dx di 7+2 x(0) = 2:0) = 1 ed + 4x x(0) = 1:0) =...
solve for v0 using mesh analysis. assume omega = 4000 rad/s 1) What is v0? 2) How do you convert 36sinwt A to polar form? 3. Solve for Vo using mesh analysis. Assume ω = 4000 rad/s.
2) Write nodal equations for the circuit in Figure 4 (put in matrix notation). Solve your equations using MATLAB and calculate Vo. Repeat using mesh analysis. Include both your nodal and mesh equations, MATLAB code, MATLAB solutions (polar form), and any calculations required using your MATLAB solutions in your lab report. Vi 4/0° A 1Ω V3 1Ω
Circut2 1. Write the set of mesh equations you would use to solve for V, in this circuit. (You DO NOT have to solve.) 2? /4? /8? 246rv
In the circuit below, vy(t)=20coswt V, v2(t) =30cos(wt-90°) Vand w=1000 rad/s. By applying Mesh Analysis, formulate two equations of the form; aly+b/2 = c; dly+el2 =f(a, b, c, d, e and f should be in rectangular form). Then solve for the mesh currents 14 and 12 give your answer in polar form) 15 mH 200 F V 10 3
Number 2&3 pls will rate. Two says for the following circuit write the nodal equations only in terms of v1 and v2 wWrile wodal" equations, but don't solve (your equations must 1 49 2 6Ω 5Ω 3A 20 V #3 (6 pts) Using Cramer's method to solve the following equations we get V2-2 V. Find A2 (you must find α first Vi +4V2-10
EXERCISE 12.2 For each of the circuits in Figure 12.66, find and sketch the indicated zero-input response corresponding to the indicated initial conditions a) In Figure 12.66, find v2, assuming v1(01 V, v2(00 b) In Figure 12.67, find v, assuming i(0) 0, v0) 1V c) Repeat (b), but with the resistor changed to 5 S2 i mH 10 uF 10022 V 24 FIGURE 12.67 FIGURE 12.66 EXERCISE 12.2 For each of the circuits in Figure 12.66, find and sketch the...
5. Using nodal analysis, write a set of equations from which you can find I, the current through the 4Ω resistor. It is not necessary to simplify or solve the equations for I. Clearly show all variable definitions and sign conventions. 3Ω 12V 2S2 2A 4Ω
Can you solve this problem using NODAL ANALYSIS?? Please show work Question 2: Circuit Analysis, 5 elements 7. If Vs 3V : 7Ω, R- 20, R35Ω, and R Let R1 Find the value of V\ R4 WI R2 V2 Vs R3 V3 V = .1428 (within three significant digits)
NOTE 2: Initial conditions assumed to be 0 unless otherwise is stated 1) Consider the system depicted below Input: v, Output: vo Assume that c (0)2, v2 (0)0 a) b) c) d) Derive the mathematical model of the system using mesh current method Find unit impulse response Find unit step response Find the transfer function T(s)Vo (s)/V(s) 2) Consider the system depicted below 2,20.5 Input: v, Output: i Assume that i,(0) 1, vc(00 a) Derive the mathematical model of the...