Problem 2 - System Representation: Input/Output (20pts) (2 For the following set of coupled differential equations: or...
Question 5 Following differential equations defines input-output relationships of a system with y as output and r as inputs. d’yı + dy 2 + y, + 5 y, = 10 r, dt ? dt. dy 2 + 1 + 7y, = 8r2 dt dt at a) Define suitable state variables and find the state equation and output equation. [8marks] b) Find system matrix (A), input matrix (B) and output matrix (C). [5marks] c) Draw the state space diagram and find...
Consider the following linear system of differential equations: dx/dt = 2x-3y dy/dt = -x +4y (a) Write this system of differential equations in matrix form (b) Find the general solution of the system (c) Solve the initial value problem given x(0) = 3 and y(0) = 4 (d) Verify the calculations with MATLAB
Find the value of x(0.5) for the initial value problem at = thx(0)=1 using Euler's method with step size h 0.05 Find the value of x(0.4) for the coupled first order differential equations together with initial conditions with step size 0.1: 2. dt t+x 3. dx dt = y, dy dt x(0) = 1.2 and --ty +xt2 + y(o) 0.8
Find the value of x(0.5) for the initial value problem at = thx(0)=1 using Euler's method with step size h...
5. A two-input, two-output dynamic system is defined by the following differential equations system 2x, (t) ) +3x1(t) -2x2 () fi(t) x2 t) -2x,(t) +2x2(t) f2(t) Determine its transfer function matrix considering that the input is (fi (t) f2(t) and the output is x, (t) x2 (t)J.
5. A two-input, two-output dynamic system is defined by the following differential equations system 2x, (t) ) +3x1(t) -2x2 () fi(t) x2 t) -2x,(t) +2x2(t) f2(t) Determine its transfer function matrix considering that...
Question 3 Consider the following linear system of differential equations dx: = 2x-3y dt dy dt (a) Write this system of differential equations in matrix form (b) Find the general solution of the system (c) Solve the initial value problem given (0) 3 and y(0)-4 (d) Verify the calculations with MATLAB
Question 3 Consider the following linear system of differential equations dx: = 2x-3y dt dy dt (a) Write this system of differential equations in matrix form (b) Find the...
4. Find the value of x(0.3) for the coupled first order differential equations together with initial conditions dx x(0) 0 and y(0)=1 sint, dt
4. Find the value of x(0.3) for the coupled first order differential equations together with initial conditions dx x(0) 0 and y(0)=1 sint, dt
Find the time constant t of the following differential
equation: a(dy/dt)+by+cx=e(dx/dt)+f(dy/dt)+g, of the given that x
is the inout, y is the output, and a through g are constants.
13, Find the time constant τ from the following differential equation, dt dt given that x is the input, y is the output and, a through g are constants. It is known that for a first-order instrument with differential equation a time constant r- alao dy the
13, Find the time...
Problem 2- System Classification: Linearity (20pts) Circle all nonlinear terms (if any) in the following differential equations: (assume variables on left are outputs, at right are inputs) y'(t) *,4x, +4x, cos(x2) e.
Problem 2- System Classification: Linearity (20pts) Circle all nonlinear terms (if any) in the following differential equations: (assume variables on left are outputs, at right are inputs) y'(t) *,4x, +4x, cos(x2) e.
Problem 5. Consider the following second order linear differential equation f"(t)-f'(t) +f(t) kt which models a forced oscillation in a damping material. For example, imagine moving your hand back and forth underwater. Write this equation as a set of coupled first order equations by doing the following: ·Define a new function g = f'(t). This gives you one of the two coupled equations. . Use the given ODE, g, and its derivatives to write the second first order equation. Both...
3. a) Find a state space representation for a linear system represented by the following differential equation, where v(t) denotes the input and y(1) is the output: b) Consider a linear system represented by the following differential equation, where x() denotes the input and y(t) is the output: )+4()+4y()x(t) i) Write down its transfer function and frequency response function i) What is the form of the steady state response of the above system due to a periodic input that has...