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8. For the following ODE i. Calculate the response i. Use the appropriate function in MATLAB...
In matlab please 3. (15 Points) Consider the following function. f(t) = 5e(-31) cos(20) a. Plot...
In matlab please
3. (15 Points) Consider the following function. f(t) = 5e(-31) cos(20) a. Plot the function for t = 0 to 1 b. Analytically calculate the derivative. C. Calculate the derivative using the diff function d. Calculate the derivative using the gradient function e. In a separate figure, plot the derivatives obtained above in a single new figure (not subplot) using (i) solid blue line for part b, (ii) red dots for part c, and (iii) green o's...
I want Matlab code. 23.8 The following nonlinear, parasitic ODE was suggested by Hornbeck (1975): d y di 5 ) If the...
I want Matlab code.
23.8 The following nonlinear, parasitic ODE was suggested by Hornbeck (1975): d y di 5 ) If the initial condition is y(0) -0.08, obtain a solution from t-0 to 5: (a) Analytically (b) Using the fourth-order RK method with a constant step size of 0.03125. (c) Using the MATLAB function ode45. (d) Using the MATLAB function ode23s (e) Using the MATLAB function ode23tb. Present your results in graphical form.
23.8 The following nonlinear, parasitic ODE was...
Consider the following problem Solve for y(t) in the ODE below (Van der Pol equation) for...
Consider the following problem Solve for y(t) in the ODE below (Van der Pol equation) for t ranging from O to 10 seconds with initial conditions yo) = 5 and y'(0) = 0 and mu = 5. Select the methods below that would be appropriate to use for a solution to this problem. More than one method may be applicable. Select all that apply. ? Shooting method Finite difference method MATLAB m-file euler.m from course notes MATLAB m-file odeRK4sys.m from...
2. For the transfer functions in problem 1 (a)(d)(e), find the corresponding impulse response functions h(t) using par...
2. For the transfer functions in problem 1 (a)(d)(e), find the corresponding impulse response functions h(t) using partial fraction expansion and determine the value of lim h(t) if the limit exists. Verify that lim- n(t)-0 for stable systems. (optional) After performing the partial fraction expansion by hand (required), yoiu are encouraged to use MATLAB to verify your results. MATLAB has a function called 'residue' that can calculate poles (pi) and residues (ci). For example, the following line will calculate the...
slove in Matlab AP2. A system is modeled by the following differential equation in which X(t)...
slove in Matlab
AP2. A system is modeled by the following differential equation in which X(t) is the output and (() is the input: *+ 2x(t) + 5x(t) = 3u(t), x(0) = 0, X(t) = 2 a. Create a state-space representation of the system. b. Plot the following on the same figure for 0 st s 10 sec : i. the initial condition response (use the initial function) il the unit step response (use the step function) iii. the total...
Use MATLAB to find the step response (plot) of a system with the following transfer function:...
Use MATLAB to find the step response (plot) of a system with the following transfer function: G(S) = (s + 1) (s + 2) (s2 + 5s + 8) Copy and paste your MATLAB commands. Copy and paste the step response plot.
Use a MATLAB built-in solver to numerically solve: dy/dx = -yx^2 + 1.5y for 0 lessthanorequalto...
Use a MATLAB built-in solver to numerically solve: dy/dx = -yx^2 + 1.5y for 0 lessthanorequalto x lessthanorequalto 3 with y(0) = 2 Make a plot of the numerical solution as a solid red line and the exact solution as green circles as shown. The exact solution is y = 2e^-(2x63 - 9x)/6 Use a MATLAB built-in function to numerically calculate the area of the solution. Use the text command to plot the area with 2-digits of precision as shown.
Problem 1 (ME363/ME367) Analytically compute and numerically approximate the free response the fo...
On MATLAB
Problem 1 (ME363/ME367) Analytically compute and numerically approximate the free response the following first-order, resistor- capacitor circuit, where capacitance, C-50pF (pico-Farads) and resistance, R-200ΜΩ (mega-Ohms), for an starting voltage of 2V. The voltage, v(t), represents the potential difference across the both resistor and capacitor, which are wired in parallel 1 Cv(t)v(t)-i(t) Required steps Define a time vector called t, from 0 to 0.1s with 1000 total points. Determine the time constant,T, for this system. By hand, solve for...
I need help with writing the for loops required to calculate c and d in Matlab...
I need help with writing the for loops required to calculate c
and d in Matlab
Files い2》 New Magma moving int ! Brick Oven-Google Ma 办Calculate summation us」 Home Chegg.com × x × × ← -> d 을 Secure https://utexas.instructure.com/courses/1 207025/files/folder/Homework/Hw4?preview-43392926 HW4.pdf Download ⓘInfo ×Close -ZOOM rodut Using Loops: Consider the following vector, , and matrices, A and B z=[0 1 1-5 2012 22]. Dashboa Calculate the following by hand and then write (by hand) the equivalent MATLAB loop:...
MATLAB help please!!!!! 1. Use the forward Euler method Vi+,-Vi + (ti+1-tinti , yi) for i=0.1, 2, , taking yo-y(to) to be the initial condition, to approximate the solution at 2 of the IVP y'=y-t...
MATLAB help please!!!!!
1. Use the forward Euler method Vi+,-Vi + (ti+1-tinti , yi) for i=0.1, 2, , taking yo-y(to) to be the initial condition, to approximate the solution at 2 of the IVP y'=y-t2 + 1, 0 2, y(0) = 0.5. t Use N 2k, k2,...,20 equispaced timesteps so to 0 and t-1 2) Make a convergence plot computing the error by comparing with the exact solution, y: t (t+1)2 exp(t)/2, and plotting the error as a function of...
In matlab please
3. (15 Points) Consider the following function. f(t) = 5e(-31) cos(20) a. Plot the function for t = 0 to 1 b. Analytically calculate the derivative. C. Calculate the derivative using the diff function d. Calculate the derivative using the gradient function e. In a separate figure, plot the derivatives obtained above in a single new figure (not subplot) using (i) solid blue line for part b, (ii) red dots for part c, and (iii) green o's...
I want Matlab code.
23.8 The following nonlinear, parasitic ODE was suggested by Hornbeck (1975): d y di 5 ) If the initial condition is y(0) -0.08, obtain a solution from t-0 to 5: (a) Analytically (b) Using the fourth-order RK method with a constant step size of 0.03125. (c) Using the MATLAB function ode45. (d) Using the MATLAB function ode23s (e) Using the MATLAB function ode23tb. Present your results in graphical form.
23.8 The following nonlinear, parasitic ODE was...
Consider the following problem Solve for y(t) in the ODE below (Van der Pol equation) for t ranging from O to 10 seconds with initial conditions yo) = 5 and y'(0) = 0 and mu = 5. Select the methods below that would be appropriate to use for a solution to this problem. More than one method may be applicable. Select all that apply. ? Shooting method Finite difference method MATLAB m-file euler.m from course notes MATLAB m-file odeRK4sys.m from...
2. For the transfer functions in problem 1 (a)(d)(e), find the corresponding impulse response functions h(t) using partial fraction expansion and determine the value of lim h(t) if the limit exists. Verify that lim- n(t)-0 for stable systems. (optional) After performing the partial fraction expansion by hand (required), yoiu are encouraged to use MATLAB to verify your results. MATLAB has a function called 'residue' that can calculate poles (pi) and residues (ci). For example, the following line will calculate the...
slove in Matlab
AP2. A system is modeled by the following differential equation in which X(t) is the output and (() is the input: *+ 2x(t) + 5x(t) = 3u(t), x(0) = 0, X(t) = 2 a. Create a state-space representation of the system. b. Plot the following on the same figure for 0 st s 10 sec : i. the initial condition response (use the initial function) il the unit step response (use the step function) iii. the total...
Use MATLAB to find the step response (plot) of a system with the following transfer function: G(S) = (s + 1) (s + 2) (s2 + 5s + 8) Copy and paste your MATLAB commands. Copy and paste the step response plot.
Use a MATLAB built-in solver to numerically solve: dy/dx = -yx^2 + 1.5y for 0 lessthanorequalto x lessthanorequalto 3 with y(0) = 2 Make a plot of the numerical solution as a solid red line and the exact solution as green circles as shown. The exact solution is y = 2e^-(2x63 - 9x)/6 Use a MATLAB built-in function to numerically calculate the area of the solution. Use the text command to plot the area with 2-digits of precision as shown.
On MATLAB
Problem 1 (ME363/ME367) Analytically compute and numerically approximate the free response the following first-order, resistor- capacitor circuit, where capacitance, C-50pF (pico-Farads) and resistance, R-200ΜΩ (mega-Ohms), for an starting voltage of 2V. The voltage, v(t), represents the potential difference across the both resistor and capacitor, which are wired in parallel 1 Cv(t)v(t)-i(t) Required steps Define a time vector called t, from 0 to 0.1s with 1000 total points. Determine the time constant,T, for this system. By hand, solve for...
I need help with writing the for loops required to calculate c
and d in Matlab
Files い2》 New Magma moving int ! Brick Oven-Google Ma 办Calculate summation us」 Home Chegg.com × x × × ← -> d 을 Secure https://utexas.instructure.com/courses/1 207025/files/folder/Homework/Hw4?preview-43392926 HW4.pdf Download ⓘInfo ×Close -ZOOM rodut Using Loops: Consider the following vector, , and matrices, A and B z=[0 1 1-5 2012 22]. Dashboa Calculate the following by hand and then write (by hand) the equivalent MATLAB loop:...
MATLAB help please!!!!!
1. Use the forward Euler method Vi+,-Vi + (ti+1-tinti , yi) for i=0.1, 2, , taking yo-y(to) to be the initial condition, to approximate the solution at 2 of the IVP y'=y-t2 + 1, 0 2, y(0) = 0.5. t Use N 2k, k2,...,20 equispaced timesteps so to 0 and t-1 2) Make a convergence plot computing the error by comparing with the exact solution, y: t (t+1)2 exp(t)/2, and plotting the error as a function of...
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