Rewrite from Mathematica to MATLAB
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SO, I have this problem, which I solved for dynamics, but now I should write a code and then generate two plots. (5.38)
I found a solution in Mathematica software, but I can't figure out what am I doing wrong in MATLAB. Here's my code:
% Given
syms theta;
W_A=100;
m_A=W_A/32.2;
W_B=20;
m_B=W_B/32.2;
L=15;
theta_0= deg2rad(70);
% Solve the system of three equations
one = str2sym('W_A*L*(cos(theta)-cos(theta_0))-1/2*m_A*V_A^2-1/2*m_B*V_Bx^2+W_A*L');
two = str2sym('m_B*V_Bx+m_A*(V_Bx+L*theta_1*cos(theta))');
three = str2sym('-V_A^2+(V_Bx+ L*theta_1*cos(theta))^2+(L*theta_1*sin(theta))^2');
[theta_1,V_A,V_Bx] = solve(one,two,three);
% Plot the velocity of the trolley and the speed of the rider as a function of the angle θ of the first half of a full swing
fplot(V_Bx, [-70,70], 'Linewidth',2)
hold on
fplot(V_A, [-70,70], '-.*c')
hold off
% Plot the velocity of the trolley and the speed of the rider as a function of the angle θ of the second half of a full swing
fplot(V_Bx, [-70,70], 'Linewidth',2)
hold on
fplot(V_A, [-70,70], '-.*c')
hold off
Thank you so much in advance!!!
Antworten (1)
Ameer Hamza
am 15 Nov. 2020
Bearbeitet: Ameer Hamza
am 17 Nov. 2020
Following shows how to write this in MATLAB.
syms theta theta_1 V_A V_Bx;
W_A=100;
m_A=W_A/32.2;
W_B=20;
m_B=W_B/32.2;
L=15;
theta_0= deg2rad(70);
% Solve the system of three equations
one = W_A*L*(cos(theta)-cos(theta_0))-1/2*m_A*V_A^2-1/2*m_B*V_Bx^2+W_A*L;
two = m_B*V_Bx+m_A*(V_Bx+L*theta_1*cos(theta));
three = -V_A^2+(V_Bx+ L*theta_1*cos(theta))^2+(L*theta_1*sin(theta))^2;
[theta_1,V_A,V_Bx] = solve(one,two,three);
% Plot the velocity of the trolley and the speed of the rider as a function of the angle θ of the first half of a full swing
fplot(V_Bx, [-70,70], 'Linewidth',2)
hold on
fplot(V_A, [-70,70], '-.*c')
hold off
% Plot the velocity of the trolley and the speed of the rider as a function of the angle θ of the second half of a full swing
fplot(V_Bx, [-70,70], 'Linewidth',2)
hold on
fplot(V_A, [-70,70], '-.*c')
hold off
The above can take a long time to plot because there are 12 solutions given by solve() functions. To speed up the computation, you can convert the functions to numeric function handle using matlabFunction() and then use fplot().
7 Kommentare
Kseniia Kudriavtceva
am 17 Nov. 2020
Walter Roberson
am 17 Nov. 2020
Your code used str2sym
Walter Roberson
am 17 Nov. 2020
Bearbeitet: Walter Roberson
am 17 Nov. 2020
When you use str2sym then there is no connection made between variables you mention and variables that you set at the MATLAB level with the same name.
A=1
eqn = str2sym('A')
eqn will not be a symbolic 1, it will be a reference to a symbolic variable named A that lives inside the symbolic engine.
You can get a numeric function by using
matlabFunction(V_Bx)
Kseniia Kudriavtceva
am 17 Nov. 2020
Kseniia Kudriavtceva
am 17 Nov. 2020
And here's the graph which I'm getting when put thets as variable in the beggining after syms
Ameer Hamza
am 17 Nov. 2020
Bearbeitet: Ameer Hamza
am 17 Nov. 2020
Yes, there was a theta missing in the first line. I have updated the answer. This graph is likely according to your equations.
Kseniia Kudriavtceva
am 18 Nov. 2020
Nope, here's what I should get as a result
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