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15. A dynamical system is modeled by the following differential equation under zero initial conditions: d’y(t)...
For the system described by the following differential equation d3y(t) d2y(t) d2x(t) dy(t) 3 dt dx(t)...
For the system described by the following differential equation d3y(t) d2y(t) d2x(t) dy(t) 3 dt dx(t) 9 dt y(t) 5x(t) 7 2 6 dt3 dt2 dt2 Express the system transfer function using the pole-zero plot technique a) b) What can be said about the stability of this stem?
For the system described by the following differential equation d3y(t) d2y(t) d2x(t) dy(t) 3 dt dx(t) 9 dt y(t) 5x(t) 7 2 6 dt3 dt2 dt2 Express the system transfer function using...
Q.4) [25 Marks] a) [15] Consider a CT LTI system described by the following differential equation...
Q.4) [25 Marks] a) [15] Consider a CT LTI system described by the following differential equation (assume zero initial conditions): dºy(t) _6dy(t) + 3 dy(t) = 2x(6) dt3-6 dt2 +8 dt = 2x(t) [5] Using Laplace transform and its properties determine the transfer function H(s) [5] Draw the pole-zero diagram of H(s) (5) Write down all possible Region-of-Convergence (ROC) for the H(s) (iii) [5] white b) (10) Determine the signal x(t) ( assume it to be right-sided signal) when the...
please help. Note: u(t) is unit-step function Consider the system with the differential equation: dyt) +...
please help.
Note: u(t) is unit-step function Consider the system with the differential equation: dyt) + 2 dy(t) + 2y(t) = dr(t) – r(e) dt2 dt where r(t) is input and y(t) is output. 1. Find the transfer function of the system. Note that transfer function is Laplace transform ratio of input and output under the assumption that all initial conditions are zero. 2. Find the impulse response of the system. 3. Find the unit step response of the system...
No Need to Solve just write it out. dy = 9. Rewrite the given differential equation...
No Need to Solve just write it out.
dy = 9. Rewrite the given differential equation as a first order system in normal form. Express the system in the matrix form ă' = A +F(t), and let x1 = y, x2 day х3 dy 6 + 15y = sint dt3 dt dt dt2 dạy
Question: A dynamical system's equations of motion are given below: du)dut) dy(t) 1 2 80-5 to0 + 6y(et+) d2x(t...
Question: A dynamical system's equations of motion are given below: du)dut) dy(t) 1 2 80-5 to0 + 6y(et+) d2x(t) dx(t) Note: initial conditions are zeros, U(s) is an impulse function and Fs) is a step function. Hint: factor nicely the denominators. For each of the dynamical system, please: (a) Compute the transfer function U(s) (b) Find the inverse Laplace transform expression for y() and x(0) (c) Compute the final value of the system. (d) Compute the initial value of the...
Problem 4. The higher order differential equation and initial conditions are shown as follows: = dy...
Problem 4. The higher order differential equation and initial conditions are shown as follows: = dy dy +y?, y(0) = 1, y'(0) = -1, "(0) = 2 dt3 dt (a) [5pts. Transform the above initial value problem into an equivalent first order differential system, including initial conditions. (b) [2pts.] Express the system and the initial condition in (a) in vector form. (c) [4pts.] Using the second order Runge Kutta method as follows Ū* = Ūi + hĚ(ti, Ūi) h =...
Question given an LTI system, characterized by the differential equation d’y() + 3 dy + 2y(t)...
Question given an LTI system, characterized by the differential equation d’y() + 3 dy + 2y(t) = dr where x(t) is the input, and y(t) is the output of the system. a. Using the Fourier transform properties find the Frequency response of the system Hw). [3 Marks] b. Using the Fourier transform and assuming initial rest conditions, find the output y(t) for the input x(t) = e-u(t). [4 Marks] Bonus Question 3 Marks A given linear time invariant system turns...
Find the state equations for the following differential equation: dy(t) dy(t) + 6y(t) = z(t) dt3...
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
3. Consider a linear time invariant system described by the differential equation dy(t) dt RCww +...
3. Consider a linear time invariant system described by the differential equation dy(t) dt RCww + y(t)-x(t) where yt) is the system's output, x(t) ?s the system's input, and R and C are both positive real constants. a) Determine both the magnitude and phase of the system's frequency response. b) Determine the frequency spectrum of c) Determine the spectrum of the system's output, y(r), when d) Determine the system's steady state output response x()-1+cos(t) xu)+cost)
A SYSTEM MODELED WITH THE SECOND ORDER DIFFERENTIAL EQUATION PRESENTS THE FOLLOWING RESPONSE TO ZERO STATE y(t) = u(t)...
A SYSTEM MODELED WITH THE SECOND ORDER DIFFERENTIAL EQUATION PRESENTS THE FOLLOWING RESPONSE TO ZERO STATE y(t) = u(t) eatcos(wt)u(t) a,uweR WHEN ENTRANCE IS A UNITARY STAGE (u(t)). SHOWS THAT THE RESPONSE TO IMPULSE IS e-at sen(wt)u(t) a,wE R y(t)aeacos(wt)u(t) +we'
A SYSTEM MODELED WITH THE SECOND ORDER DIFFERENTIAL EQUATION PRESENTS THE FOLLOWING RESPONSE TO ZERO STATE y(t) = u(t) eatcos(wt)u(t) a,uweR WHEN ENTRANCE IS A UNITARY STAGE (u(t)). SHOWS THAT THE RESPONSE TO IMPULSE IS e-at sen(wt)u(t) a,wE R...
For the system described by the following differential equation d3y(t) d2y(t) d2x(t) dy(t) 3 dt dx(t) 9 dt y(t) 5x(t) 7 2 6 dt3 dt2 dt2 Express the system transfer function using the pole-zero plot technique a) b) What can be said about the stability of this stem?
For the system described by the following differential equation d3y(t) d2y(t) d2x(t) dy(t) 3 dt dx(t) 9 dt y(t) 5x(t) 7 2 6 dt3 dt2 dt2 Express the system transfer function using...
Q.4) [25 Marks] a) [15] Consider a CT LTI system described by the following differential equation (assume zero initial conditions): dºy(t) _6dy(t) + 3 dy(t) = 2x(6) dt3-6 dt2 +8 dt = 2x(t) [5] Using Laplace transform and its properties determine the transfer function H(s) [5] Draw the pole-zero diagram of H(s) (5) Write down all possible Region-of-Convergence (ROC) for the H(s) (iii) [5] white b) (10) Determine the signal x(t) ( assume it to be right-sided signal) when the...
please help.
Note: u(t) is unit-step function Consider the system with the differential equation: dyt) + 2 dy(t) + 2y(t) = dr(t) – r(e) dt2 dt where r(t) is input and y(t) is output. 1. Find the transfer function of the system. Note that transfer function is Laplace transform ratio of input and output under the assumption that all initial conditions are zero. 2. Find the impulse response of the system. 3. Find the unit step response of the system...
No Need to Solve just write it out.
dy = 9. Rewrite the given differential equation as a first order system in normal form. Express the system in the matrix form ă' = A +F(t), and let x1 = y, x2 day х3 dy 6 + 15y = sint dt3 dt dt dt2 dạy
Question: A dynamical system's equations of motion are given below: du)dut) dy(t) 1 2 80-5 to0 + 6y(et+) d2x(t) dx(t) Note: initial conditions are zeros, U(s) is an impulse function and Fs) is a step function. Hint: factor nicely the denominators. For each of the dynamical system, please: (a) Compute the transfer function U(s) (b) Find the inverse Laplace transform expression for y() and x(0) (c) Compute the final value of the system. (d) Compute the initial value of the...
Problem 4. The higher order differential equation and initial conditions are shown as follows: = dy dy +y?, y(0) = 1, y'(0) = -1, "(0) = 2 dt3 dt (a) [5pts. Transform the above initial value problem into an equivalent first order differential system, including initial conditions. (b) [2pts.] Express the system and the initial condition in (a) in vector form. (c) [4pts.] Using the second order Runge Kutta method as follows Ū* = Ūi + hĚ(ti, Ūi) h =...
Question given an LTI system, characterized by the differential equation d’y() + 3 dy + 2y(t) = dr where x(t) is the input, and y(t) is the output of the system. a. Using the Fourier transform properties find the Frequency response of the system Hw). [3 Marks] b. Using the Fourier transform and assuming initial rest conditions, find the output y(t) for the input x(t) = e-u(t). [4 Marks] Bonus Question 3 Marks A given linear time invariant system turns...
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
3. Consider a linear time invariant system described by the differential equation dy(t) dt RCww + y(t)-x(t) where yt) is the system's output, x(t) ?s the system's input, and R and C are both positive real constants. a) Determine both the magnitude and phase of the system's frequency response. b) Determine the frequency spectrum of c) Determine the spectrum of the system's output, y(r), when d) Determine the system's steady state output response x()-1+cos(t) xu)+cost)
A SYSTEM MODELED WITH THE SECOND ORDER DIFFERENTIAL EQUATION PRESENTS THE FOLLOWING RESPONSE TO ZERO STATE y(t) = u(t) eatcos(wt)u(t) a,uweR WHEN ENTRANCE IS A UNITARY STAGE (u(t)). SHOWS THAT THE RESPONSE TO IMPULSE IS e-at sen(wt)u(t) a,wE R y(t)aeacos(wt)u(t) +we'
A SYSTEM MODELED WITH THE SECOND ORDER DIFFERENTIAL EQUATION PRESENTS THE FOLLOWING RESPONSE TO ZERO STATE y(t) = u(t) eatcos(wt)u(t) a,uweR WHEN ENTRANCE IS A UNITARY STAGE (u(t)). SHOWS THAT THE RESPONSE TO IMPULSE IS e-at sen(wt)u(t) a,wE R...
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