ODE 45 Extra parameter

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See Goo
See Goo on 23 Aug 2022
Answered: Torsten on 23 Aug 2022
Hello
I hope you're well.
I am currently trying to plot with ODE45. This is a linear growth model.
My formula is (r*p*(1-p/N)) - ((200/2)*(1+sin(2*pi*t)/12))
ODE45 works fine when solving with just the first part of the formula
sol = ode45(@(t,p) (r*p*(1-p/N)) , tspan, p0);
however I am not sure how to implement the extra bit of code. I tried the following
sol = ode45(@(t,p) (r*p*(1-p/N)) - ((200/2)*(1+sin(2*pi*t)/12)), tspan,p0);
But dont think this is correct.
I'm not sure how to implement this extra bit. Would appreciate any help.
Thanks.
Kind regards,
  3 Comments
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Steven Lord
Steven Lord on 23 Aug 2022
Is there something in particular that leads you to doubt the answer you receive when you run your code? If so can you show us your code and explain your doubt in more detail?
See Goo
See Goo on 23 Aug 2022
Edited: See Goo on 23 Aug 2022
Thank you for the responses.
I am asked to run only for 15 instances, which represent 15 years.
The first and second case look identical except for after the 15 years time frame where i see some sinusoidal activity.
%Q1
tspan = [0 15];
p0 = 1000 + 1000*2;
r = 0.25;
N =20000;
ode = ode45(@(t,p) r*p*(1-p/N), tspan,p0);
t = linspace(0,15);
devals = deval(ode,t);
plot(t,devals);
xlabel('t');
ylabel('p');
%Q2
tspan = [0 15];
p0 = 1000 + 1000*2;
r = 0.25;
N =20000;
ode = ode45(@(t,p) r*p*(1-p/N) - ((200/2)*(1+sin(2*pi*t)/12)), tspan,p0);
t = linspace(0,15);
devals = deval(ode,t);
plot(t,devals);
xlabel('t');
ylabel('p');

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Accepted Answer

Torsten
Torsten on 23 Aug 2022
Ran in:
I think there is quite a noticable difference between the solution curves.
%Q1
tspan = [0 15];
a = 1000 + 1000*2;
r = 0.25;
N =20000;
options = odeset('RelTol',1e-12,'AbsTol',1e-12);
[t,ode] = ode45(@(t,p) r*p*(1-p/N), tspan,a,options);
plot(t,ode)
hold on
%t = linspace(0,15);
%devals = deval(ode,t);
%plot(t,devals);
%xlabel('t');
%ylabel('p');
%Q2
tspan = [0 15];
a = 1000 + 1000*2;
r = 0.25;
N =20000;
[t,ode] = ode45(@(t,p) r*p*(1-p/N) - ((200/2)*(1+sin(2*pi*t)/12)), tspan,a,options);
plot(t,ode)
hold off
%t = linspace(0,15);
%devals = deval(ode,t);
%plot(t,devals);
xlabel('t');
ylabel('p');

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