1. Use node equation method to find the governing equation for the following system (CFN Problem...
Chapter 7, Problem 7.014 Use the differential equation approach to find it) for t>0 in the circuit in the figure below. 1 H t=0 iL(t) 3 V 12Ω 6Ω 6Ω 3Ω Please round all numbers to 3 significant digits. Click here to enter or edit your answer L(t) ok
. Find Vo using the node voltage method. You may any use any computing program you desire to solve the resulting system of equations 2 V 12 V 1 k12 BONUS PROBLEM Write the node voltage equations, eliminating all dependent parameters from the resulting equations. 1x 6Ω 31 4 A
Use the node-voltage method to find vo in the following circuit. 4Ω 2 H 4cos(4t) A 62 F. A. vo (t) 7.67 cos(4t- 35.020) V Using the mesh-current analysis to obtain Io in the following circuit 2202A 2Ω j2Ω 12 FA. 1°-3.35<174.3° A
i really just need help with part c and d. thank you! (a)Use Euler method to find the difference equation for the following IVP (initial value problem). Please Type your work. (Due on March 5th) dt(, yo 0.01 (b) Calculate the numerical solution for 0 s t S T using k and M T where k = and T = 9 for M 32,64, 128. Using programming languages such as Ct+, MATLAB, eto. (c) Graph those numerical solutions versus exact...
solve with newton's method Q1: Use the equivalent system method to derive the differential equation governing the free vibrations of the system of Figure below. Use x, the displacement of the mass center of the disk from the system's equilibrium position, as the generalized coordinate. The disk rolls without slipping, no slip occurs at the pulley, and the pulley is frictionless. Include an approximation for the inertia effects of the springs. Each spring has a mass ms. Use newton's method....
Use the node voltage method to find the steady-state expression for io in the circuit seen in (Figure 1) if ig 4 cos 2500t A and v, 16 cos(2500t + 90° ) V Write the steady-state expression for io(t) as to = L cos(wt + φ), where-180° <φ < 180° Figure く 1of1 100 μF 50 uF 12Ω View "31.6 mH 30
Problem 2. Op-amp circuits to ODEs Find the governing equation(s) for the following op-amp circuits. Then find the transfer function, G(s) = Vol. Feel free to either use the impedance method or the time-domain methods. a) a R: R 1. R b) R C HE 1 M
Consider the circuit shown in (Figure 1). Suppose that v1=240V, v2=115V, and v3=470V. Part A. Use the mesh-current method to find the magnitude of the total power developed in the circuit. Part B. Find the magnitude of the total power dissipated in the circuit. 6Ω ΙΩ 3Ω 2Ω 4Ω 5Ω
Question 24 1 pts Using the shooting method for the following second-order differential equation governing the boundary value problem G.E: + EA (x) +u = L (x) € (0,L] B.C's: u () = 0 and EA (2) de Iz-L=F, the trapezoidal method is used to converts the problem into coupled integral equations solved at the quadrature points. None of the above. finite differences are used to convert the governing equation and boundary conditions of the problem into an analog set...
Chapter 7, Problem 7.021 Use the step-by-step method to find io(80 ms) in the circuit in the figure below 6Ω 6Ω 2 H +24V i0(t) t=0 the tolerance is +/-2%