Find the transfer function using the state and output equations:
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Find the transfer function using the state and output equations: (-10 1 |-27 0 1||x2|+ |0u;...
For the following systems, find the transfer function using MATLAB. Also, determine the poles and zeros of each transfer. You should be able to use some combination of the following MATLAB functions: 'ss2tf( )', 'ss( )', 'tf( )', 'pole( )', "zero( )', and 'roots() 100 ).y) = [0_1)|) 2 a. |x2(t)] -10 [x1 (t lx20 21 b. + 01 x1 (t) 0 x2(t) 1 u(t), y(t): ol]x3(t)] [(t)] x2(t) 3(t) [x1 (t)] [o 0 1x2(t) [x3(t)] -4 -2 0 2...
Write neatly please =) 1. Consider the system described by the ODE's X1 = X2 i,--2x,-3x2 +11 Using the State Function of Pontryagin to find the input u that minimizes u2 a. Determine the state function of Pontryagin H b. Find the optimal input and Ho c. Find the matrix A that will yield the governing equations Xy x2 12 If X1 (0) = 1,x2(0)=0 and x1(1)-x-(1)=0 determine the govern equations for λ! (0) and d. (0) in terms of...
State space of transfer function 10. Consider the following input-output transfer function. U(s) s3 6s 11s +4 Draw the CCF state diagram of the system. Obtain the dynamic equations of the system in CCF. i.i Obtain the dynamic equations of the system in odr. 10. Consider the following input-output transfer function. U(s) s3 6s 11s +4 Draw the CCF state diagram of the system. Obtain the dynamic equations of the system in CCF. i.i Obtain the dynamic equations of the...
1. Consider the system X2 X3 (a) Find the transfer function of the system. (b) Evaluate the impulse response and the step response of the system (c) Is the system stable?
(3) For the system modeled by with output defined as a) Find the system's transfer function(s) E(t) +3z(t) +2x(t)-Sult) b) Find the system's pole(s) (if any) and zero(s) (if any) c) Find n(t →x) if u(t)-G 120) 0 t<0 e) Find the frequency response function corresponding to output y 1) Find steady-state ya(t) if u(t) 3sin(21)
Find the state equations for the following differential equation: dy(t) dy(t) + 6y(t) = z(t) dt3 dt2 dt +60360) + 11. 1 1 + oz(t) 0 0 -6 -11 X3 X 1 y(t) = [1 0 0] x2 + [0]z(t) X3 X1 0 1 0 = 0 0 0 X2 0 Iz(t) X2 6 11 6 X3 X3 X1 y(t) = [1 1 0] x2 + [O] z (t) X3
Find the zero-state response of the linear system with transfer function with an > 0 and 0 <くく1, when the input u(t) is the unit step, that is, u(t)-1(t), for 12 o, using both 1) the transfer function approach and 2) the convolution approach Find the zero-state response of the linear system with transfer function with an > 0 and 0
10.Represent the translational mechanical system shown in the Figure in state- space, where xX3(t) is the output IN- 11.Find the state equations and output equation for the phase-variable representation of the transfer function G(s) 2s+1/(s2+7s+ 9) 12. Convert the state and output equations shown to a transfer function. -1.5 2 u(t) X = X 4 0 Y [1.5 0.625]x 13. For each system shown, write the state equations and the output equation for the phase- variable representation 8s10 sh25 t26...
9. For the transfer function: Find its state space representation. 10. A system is described by the following differential equations: Find its state space representation.
Q1, pease help asap, please write clearly. Thanks in advance. 1. Given the transfer function of the control system. (60%) G(s) S) 5s+13 R(s) +6s+13 Y (1) Sketch the state diagram in the form of signal flow graph. (2) Find the state equations. (3) Find the output equation. (4) Find the fundamental matrix 2(t). (5) Find the state-transition matrix D(t) (6) Find the state vector x(t) if the input r(t) 2 and y(0)= (0) = 0 . 1. Given the...