solve using MATLAB only (if statement when xdot >0 and xdot<0]
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solve using MATLAB only (if statement when xdot >0 and
xdot<0]
Compute and plot the response...
Please solve using MATLAB. Write a MATLAB function to compute and plot the output of the...
Please solve using MATLAB.
Write a MATLAB function to compute and plot the output of the discrete-time system for x[n]-u[n], 0 < n < 1000. Based on these results can you make a statement regarding the stability of the system? Hint: Check the value y[600]
FOUR-Matlab Solve the following equation of motion using Matlab ODE45: 4 -m 6(0) 6(0)-0.1 (0) 0.2...
solve with matlab
FOUR-Matlab Solve the following equation of motion using Matlab ODE45: 4 -m 6(0) 6(0)-0.1 (0) 0.2 0(0)-1 Assume that: m-0.1 kg, g-10 m/s, L-1 m, r-0.5 m. Plot θ vs 1 and θ vs θ
FOUR-Matlab Solve the following equation of motion using Matlab ODE45: 4 -m 6(0) 6(0)-0.1 (0) 0.2 0(0)-1 Assume that: m-0.1 kg, g-10 m/s, L-1 m, r-0.5 m. Plot θ vs 1 and θ vs θ
Using a mathematical software (MATLAB, MAPLE, and etc) plot the free and forced vibration response of...
Using a mathematical software (MATLAB, MAPLE, and etc) plot the free and forced vibration response of a viscously damped system (x(t), dx(t)/dt, d2x(t)/dt2) with m=4kg, k=2500 N/m, x0=100 mm, v0=-10 m/s, Δt=[0,0.01], [0,1], and [0,10] for the following values. Also determine the nature of the system (un-damped, under damped, critically damped, and over damped). (5 marks) a. c=0, F=100 sinωt (ω=20,25,30)
USE MATLAB TO SOLVE PLEASE 42. The velocity, v, of an object that falls freely due...
USE MATLAB TO SOLVE PLEASE
42. The velocity, v, of an object that falls freely due to the Earth gravity can be modeled with the equation: - mg + kv? dt where m is the mass of the object, g = 9.81 m/s2, and k is a constant. Solve the equation for v for the case that m = 5 kg, k = 0.05 kg/m, 0<t<15 s, and wo) = 0 m/s. Make a plot of v as a function...
solve using Matlab , write the matlab code please 2.95. A DVD drive is mounted chassis...
solve using Matlab , write the matlab code please
2.95. A DVD drive is mounted chassis and is modeled as a single-degree-of-freedom on a spring, mass, and damper. During normal operation, the drive (having a mass of 0.4 kg) is subject to a harmonic force of 1 N at 10 rad/s. Because of material considerations and static deflection, the stiffness is fixed at 500 N/m and the natural damping in the system is 10 kg/s. The DVD player starts and...
Solve and plot with MATLAB . A safety bumper is placed at the end of a...
Solve and plot with MATLAB . A safety bumper is placed at the end of a racetrack to stop out-of-control cars. The bumper is designed such that the force that the bumper applies to the car is a function of the velocity v and the displacement x of the front edge of the bumper according to the equation: where K = 30 (s kg)/m5 is a constant. A car with a mass m of 1,500 kg hits the bumper at...
#5 is only I need in which we need to plot it on Matlab and I...
#5 is only I need in which we need to plot it on Matlab
and I don't know how to plot it.
Project 1 A Vibration Insulation Problem Passive isolation systems are sometimes used to insulate delicate equipment from unwanted vibrations. For example, in order to insulate electrical monitoring equipment from vibrations present in the floor of an industrial plant, the equipment may be placed on a platform supported by flexible mountings resting on the floor. A simple physical model...
X(s) U(s) s2+ 10s+625 625 b. Plot/find the time response of this system using MATLAB when...
X(s) U(s) s2+ 10s+625 625 b. Plot/find the time response of this system using MATLAB when subjected to the input signal in Figure 2. Assume t -O, t2 -10-9, and A - 10 Hint: What can the input signal be approximated as? Use the approximation. Plot the response for at least 1 second. 1) Provide the plot. You do not need to print an answer to the hint. 0 Figure 2. Input u(t) c. Redo part b using the transfer...
Take Figure 9.5c as a model for a one story building. Use the parameter values m...
Take Figure 9.5c as a model for a one story building. Use the
parameter values m = 1.20×103kg and k = 4.00×104 N/m. Apply the
initial conditions x(0) = 1.20m, ˙ x(0) = 4.00m/s and determine the
system’s free vibration response analytically (i.e. solve by hand).
Express the solution as a sum of sine and cosine functions and in
the amplitude-phase shift form. Plot both forms using Matlab for a
span of several seconds to ensure the solutions are
equivalent....
2. (30 pts) Consider the system of Figure 1 (m-2 kg, k 50 N/m, 0-30°). a) Obtain the equation of motion. b) Compute the initial conditions such that the system oscillates at only one frequency wh...
2. (30 pts) Consider the system of Figure 1 (m-2 kg, k 50 N/m, 0-30°). a) Obtain the equation of motion. b) Compute the initial conditions such that the system oscillates at only one frequency when Fa)-2sin10 c) Calculate the response of the system for F)-2sin10/, xo-0,-10 m/s. d) Calculate the response of the system for F)-108t), xo-0, -10 m/s. c) Calculate the response of the system for F(i)-2sin10+108(-2), x0-0, ao-10 m/s. nt Ft) Figure 1. Mass-spring system
2. (30...
Please solve using MATLAB.
Write a MATLAB function to compute and plot the output of the discrete-time system for x[n]-u[n], 0 < n < 1000. Based on these results can you make a statement regarding the stability of the system? Hint: Check the value y[600]
solve with matlab
FOUR-Matlab Solve the following equation of motion using Matlab ODE45: 4 -m 6(0) 6(0)-0.1 (0) 0.2 0(0)-1 Assume that: m-0.1 kg, g-10 m/s, L-1 m, r-0.5 m. Plot θ vs 1 and θ vs θ
FOUR-Matlab Solve the following equation of motion using Matlab ODE45: 4 -m 6(0) 6(0)-0.1 (0) 0.2 0(0)-1 Assume that: m-0.1 kg, g-10 m/s, L-1 m, r-0.5 m. Plot θ vs 1 and θ vs θ
USE MATLAB TO SOLVE PLEASE
42. The velocity, v, of an object that falls freely due to the Earth gravity can be modeled with the equation: - mg + kv? dt where m is the mass of the object, g = 9.81 m/s2, and k is a constant. Solve the equation for v for the case that m = 5 kg, k = 0.05 kg/m, 0<t<15 s, and wo) = 0 m/s. Make a plot of v as a function...
solve using Matlab , write the matlab code please
2.95. A DVD drive is mounted chassis and is modeled as a single-degree-of-freedom on a spring, mass, and damper. During normal operation, the drive (having a mass of 0.4 kg) is subject to a harmonic force of 1 N at 10 rad/s. Because of material considerations and static deflection, the stiffness is fixed at 500 N/m and the natural damping in the system is 10 kg/s. The DVD player starts and...
#5 is only I need in which we need to plot it on Matlab
and I don't know how to plot it.
Project 1 A Vibration Insulation Problem Passive isolation systems are sometimes used to insulate delicate equipment from unwanted vibrations. For example, in order to insulate electrical monitoring equipment from vibrations present in the floor of an industrial plant, the equipment may be placed on a platform supported by flexible mountings resting on the floor. A simple physical model...
X(s) U(s) s2+ 10s+625 625 b. Plot/find the time response of this system using MATLAB when subjected to the input signal in Figure 2. Assume t -O, t2 -10-9, and A - 10 Hint: What can the input signal be approximated as? Use the approximation. Plot the response for at least 1 second. 1) Provide the plot. You do not need to print an answer to the hint. 0 Figure 2. Input u(t) c. Redo part b using the transfer...
Take Figure 9.5c as a model for a one story building. Use the
parameter values m = 1.20×103kg and k = 4.00×104 N/m. Apply the
initial conditions x(0) = 1.20m, ˙ x(0) = 4.00m/s and determine the
system’s free vibration response analytically (i.e. solve by hand).
Express the solution as a sum of sine and cosine functions and in
the amplitude-phase shift form. Plot both forms using Matlab for a
span of several seconds to ensure the solutions are
equivalent....
2. (30 pts) Consider the system of Figure 1 (m-2 kg, k 50 N/m, 0-30°). a) Obtain the equation of motion. b) Compute the initial conditions such that the system oscillates at only one frequency when Fa)-2sin10 c) Calculate the response of the system for F)-2sin10/, xo-0,-10 m/s. d) Calculate the response of the system for F)-108t), xo-0, -10 m/s. c) Calculate the response of the system for F(i)-2sin10+108(-2), x0-0, ao-10 m/s. nt Ft) Figure 1. Mass-spring system
2. (30...
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