Second Order Ordinary Differential Equation Array

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Matthew Tom 2019 年 4 月 5 日

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https://jp.mathworks.com/matlabcentral/answers/454699-second-order-ordinary-differential-equation-array

コメント済み: Star Strider 2019 年 4 月 5 日

Hi. A thought never occurred to me about how to approach graphing multiple ordinary differential equations simultaneously while changing a parameter (in an array).

Here is my function code:

function h = manometer(t,y)

rho = 1.2; %Density(g/cm^3)

g = 981; %Gravitational acceleration (cm/s^2)

L = 250; %Liquid length in the manometer (cm)

mu = 0.0097; %Viscosity of the fluid (g/cm/s)

D = [0.1 0.2 0.35]; %Diameter of the pipe (cm) for 1st, 2nd, and 3rd cases

Y = 10; %Deviation variable in the change of the depth in cm (dP/(rho*g))

h(1)=y(2);

h(2)=(3*g*Y/(2*L))-(24*mu*y(2)/(rho.*D.^2))-(3*g*y(1)/(2*L));

h = h';

Hre is my Script File:

t = [0 20];

initial = [0, 0];

[t,y] = ode45(@manometer, t, initial);

plot(t,y(:,1))

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Answer 1

Star Strider 2019 年 4 月 5 日

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https://jp.mathworks.com/matlabcentral/answers/454699-second-order-ordinary-differential-equation-array#answer_369271

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I’m not certain what you’re asking.

If you want different results for different values of ‘D’, the easiest way is to add ‘D’ as an additional parameter, then call ode45 in a loop. This works best with a vector of times for ’tspan’ since all the row sizes of the output will be the same.

Example:

function h = manometer(t,y,D)
rho = 1.2; %Density(g/cm^3)
g = 981; %Gravitational acceleration (cm/s^2)
L = 250; %Liquid length in the manometer (cm)
mu = 0.0097; %Viscosity of the fluid (g/cm/s)
% % D = [0.1 0.2 0.35]; %Diameter of the pipe (cm) for 1st, 2nd, and 3rd cases
Y = 10; %Deviation variable in the change of the depth in cm (dP/(rho*g))
h(1)=y(2); 
h(2)=(3*g*Y/(2*L))-(24*mu*y(2)/(rho.*D.^2))-(3*g*y(1)/(2*L));
h = h';
end
D = [0.1 0.2 0.35]; %Diameter of the pipe (cm) for 1st, 2nd, and 3rd cases
t = linspace(0, 20, 25);
initial = [0, 0];
for k = 1:numel(D)
    [t,y{k}] = ode45(@(t,y)manometer(t,y,D(k)), t, initial);
end
ym = cell2mat(y);
plot(t,ym(:,1:2:end))
lgd = sprintfc('D = %.1f', D);
legend(lgd, 'Location','SE')

Experiment to get the result you want.

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Star Strider 2019 年 4 月 5 日

Matthew Tom’s ‘Answer’ moved here:

Yes, your function did what I wanted to by graphing out the three graphs, but the graphs aren't as smooth as plotting it out by hand. But I figured out a solution to the code and it works perfectly.

Thank you for your help!

Star Strider 2019 年 4 月 5 日

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To get higher resolution, increase the number of points in the linspace call:

t = linspace(0, 20, 250);

If my Answer helped you solve your problem, please Accept it!

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Answer 2

Matthew Tom 2019 年 4 月 5 日

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https://jp.mathworks.com/matlabcentral/answers/454699-second-order-ordinary-differential-equation-array#answer_369267

I forgot to mention that the main error is with the array. I am uncertain how to approach the plotting and the function script when the variable, D, is an array. Thank you for taking your time to look through my code!