simulate free fall project, ode45, using reynolds no to get drag coefficient, recursive problem

10 vues (au cours des 30 derniers jours)
It seems this is a recursive problem; I need velocity to calculate Reynolds number;
ODE45 seems no need to use recursive;
now I can't get any result from this code. please give me some advice; thank you.
close all;
clear all;
clc;
tr=[0 15]; %seconds
initv=[0 0]; %start 600 m high
[t,y,Re]=ode45(@rkfalling, tr, initv)
plot(t,y(:,1))
ylabel('x (m)')
xlabel('time(s)')
figure
plot(t,y(:,2))
ylabel('velocity (m/s)')
xlabel('time(s)')
% figure
% plot(t,Re)
% figure
% plot(t,Drag_force)
function [dwdt, Re, Drag_force]=rkfalling(t,w)
g=9.81;
% air density @ standard sea-level condition kg/m3
rou_air = 1.294;
% air viscosity, Pa*s
mu = 17.2e-6;
radius = 0.01;
rou = 7750;
volume_sphere = 4/3*pi*radius^3;
mass =rou*volume_sphere;
%displacement
y = w(1);
%velocity
ydot = w(2);
%Re = w(3);
dwdt=zeros(size(w));
dwdt(1) = ydot;
% drag force
% Reynolds number
Re = rou_air*radius*2*ydot/mu;
%Re=5000;
% drag coefficient
C_D = 24/Re + 2.6*(Re/5.0)/(1+(Re/5.0)^1.52)+0.411*(Re/2.63e5)^(-7.94)/(1+(Re/2.63e5)^(-8.0))+0.25*(Re/1e6)/(1+(Re/1e6));
Drag_force = C_D*0.5*rou_air*pi*radius*2*ydot^2;
%dwdt(2)= -0.2*ydot^2+g;
dwdt(2)= -Drag_force/mass+g;
end
  4 commentaires
darova
darova le 11 Sep 2021
Velocity is ? What is the problem? Don't you have function ?
LEI Li
LEI Li le 11 Sep 2021
The problem now is I got NAN for y; no errors.

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Réponse acceptée

Star Strider
Star Strider le 11 Sep 2021
The NaN values are the result of 0/0 operations, and when that occurs in the first integration, it propagates through all of them.
Add eps (or some other small number) to ‘initv’ and it works.
tr=[0 15]; %seconds
initv=[0 0]+eps; %start 600 m high
[t,y,Re]=ode45(@rkfalling, tr, initv)
t = 121×1
1.0e+00 * 0 0.0000 0.0000 0.0000 0.0000 0.0000 0.0001 0.0001 0.0001 0.0003
y = 121×2
0.0000 0.0000 0.0000 0.0001 0.0000 0.0001 0.0000 0.0002 0.0000 0.0002 0.0000 0.0005 0.0000 0.0007 0.0000 0.0010 0.0000 0.0012 0.0000 0.0025
Re = 6×1
30 1 187 0 0 0
plot(t,y(:,1))
ylabel('x (m)')
xlabel('time(s)')
figure
plot(t,y(:,2))
ylabel('velocity (m/s)')
xlabel('time(s)')
% figure
% plot(t,Re)
% figure
% plot(t,Drag_force)
function [dwdt, Re, Drag_force]=rkfalling(t,w)
g=9.81;
% air density @ standard sea-level condition kg/m3
rou_air = 1.294;
% air viscosity, Pa*s
mu = 17.2e-6;
radius = 0.01;
rou = 7750;
volume_sphere = 4/3*pi*radius^3;
mass =rou*volume_sphere;
%displacement
y = w(1);
%velocity
ydot = w(2);
%Re = w(3);
dwdt=zeros(size(w));
dwdt(1) = ydot;
% drag force
% Reynolds number
Re = rou_air*radius*2*ydot/mu;
%Re=5000;
% drag coefficient
C_D = 24/Re + 2.6*(Re/5.0)/(1+(Re/5.0)^1.52)+0.411*(Re/2.63e5)^(-7.94)/(1+(Re/2.63e5)^(-8.0))+0.25*(Re/1e6)/(1+(Re/1e6));
Drag_force = C_D*0.5*rou_air*pi*radius*2*ydot^2;
%dwdt(2)= -0.2*ydot^2+g;
dwdt(2)= -Drag_force/mass+g;
end
.
  2 commentaires
LEI Li
LEI Li le 11 Sep 2021
The Reynolds number Re is still not right. I thought every time I got a new velocity, or velocity is updated, the Reynolds number should also update.
but here, it is just has six values, and the values seem not right, bc the Re should be greater than 6000;
a steel ball with radius = 5mm falling from sky, terminal velocity should be greater than 4.5m/s; it doesn't make sense.
Star Strider
Star Strider le 11 Sep 2021
You wiill need to solve that, since I do not understand what you are doing to the extent that I can correct the code. (My areas of expertise do not include fluid dynamics, unfortunately for this problem.)

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Plus de réponses (1)

Paul
Paul le 11 Sep 2021
Check your intiial conditions. At t = 0, ydot = 0, which yields Re == 0, which then yields isnan(C_D) == true, and subsequently Draf_force and dwdt(2) are both NaN.
Also, that third output from ode45 isn't what you think it is. It's supposed to be the time of event detections, though no events are explicitly defined for this problem so I'm not really sure what's being returned. But it's certainly not the Reynolds number at each time step. In fact, I'm not even sure that the solver knows or cares about the second and third outputs from rkfalling().
  2 commentaires
Paul
Paul le 11 Sep 2021
Once you correct the NaN issue, you can get the Re vs t by calling rkfalling() after you get the solution from ode45
[t,y] = ode45(@rkfalling,tr,initv);
[~,Re,Drag] = rkfalling(t,y);
LEI Li
LEI Li le 12 Sep 2021
Thank you. I will dig it and find out the solution

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