Plotting first-order differential equation with initial condition
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I need to plot the solution curve of the differential equation: y'+ty=t^2 on the matlab program. I was given the intial condition of y(0)=3 and I need to graph it on the interval of [-4,4]. I understand how to find the solution of the differential equation but I don't know how to graph the solution curve.
4 comentarios
KSSV
el 21 de En. de 2020
Read about ODE45 to get the solution and read about plot to get the graph.
Erin Manogaran
el 21 de En. de 2020
I tried ODE45 and got this code:
tspan = [0 5];
y0 = 3;
[t,y] = ode45(@(t,y) t^2-(t*y), tspan, y0);
However I got an inccorect graph. I am not sure what I got wrong.
This is the graph I got:
This is the correct graph:
David Goodmanson
el 21 de En. de 2020
Editada: David Goodmanson
el 21 de En. de 2020
Hi Erin,
tspan = [0 4];
y0 = 3;
[t,y] = ode45(@(t,y) t^2-(t*y), tspan, y0);
plot(t,y); grid on
The span of t here duplicates the right hand half of your sample plot. Once you use grid on, as you almost always should, you will probably like the comparison. Negative x would be a separate calculation.
Walter Roberson
el 24 de En. de 2020
Your "correct graph" is a vector field or quiver plot. Each point on a grid needs a direction and a length, or a pair of lengths that together are interpreted as a vector. There is nothing in the code you showed us that provides the information that would be needed for such a plot.
Respuesta aceptada
Guru Mohanty
el 24 de En. de 2020
Hi, I understand you are trying to plot the differential equation. The issue while plotting with ode45 is it tries to solve it numerically. The solver imposes the initial conditions given by y0 at the initial time tspan(1), then integrates from tspan(1) to tspan(end). But in your scenario initial condition is at t = 0 and tspan(1) = -4. If you plot the ODE in the interval [0, 4] the ode45 will give correct result. However, you can plot the solution of differential equation using Symbolic toolbox and dsolve function. You may mention the appropriate range in fplot while plotting the solution. Here is the code for it.
clc;
clear all;
syms y(t)
eqn = diff(y,1)+ t*y ==t^2;
cond = y(0)==3;
sol = dsolve(eqn,cond);
fplot(sol,[-4,4]);
grid on;
2 comentarios
Robin James
el 6 de Dic. de 2020
Editada: Robin James
el 6 de Dic. de 2020
I am trying to do something similar: See code below
clc
close all
clear all
Re = 1522.554;
Pr = 0.7;
K = 54.13e-3;
D = 15e-3;
Nu = 2 + ((((0.4*(Re^(0.5)))+((0.06*(Re^(2/3)))))*(Pr^(0.4)))*((1)^(1/4)))
hbar = (Nu*K)/D
As = pi*(D^2);
Tinf = 273.15+900;
Tsur = 273.15+600;
epsilon = 0.5;
sigma = 5.6703e-8; % (W/m2K4) S-B constant
syms x
eqn = ((epsilon*sigma*((Tsur^4)-(x^4)))-(hbar*(x-Tinf)))*As == 0;
T = vpasolve(eqn)
rho = 0.4743;
v = (4/3)*pi*((D/2)^3);
c = 1084;
syms T(t)
eqn2 = diff(T,t) == (-As/(rho*v*c))*((hbar*(T - Tinf))+(epsilon*sigma*(((T)^4)-(Tsur^4))))
cond = T(0) == 273.15+25;
TSol(t) = dsolve(eqn2,cond);
fplot(TSol,[0,15000]);
grid on
But I am getting error:
Error using fplot (line 120)
Input must be a function handle or symbolic function.
Error in problem4 (line 48)
fplot(TSol,[0,15000]);
Walter Roberson
el 6 de Dic. de 2020
The equation generated in eqn2 is of the form A+B*T^4+C*T==diff(T) but MATLAB is not able to resolve that.
Mathematica does appear to be able to resolve equations of that general form: https://www.wolframalpha.com/input/?i=A+%2B+B*T%5Bt%5D%5E4+%2B+C*T%5Bt%5D+%3DT%27%5Bt%5D
Más respuestas (1)
In R2023b, a completely new interface for working with ODEs was released. The old ways are all still in MATLAB, of course, but the new way is much easier to use in my opinion. Here's how you'd solve your problem using the new interface
Details in my blog post The new solution framework for Ordinary Differential Equations (ODEs) in MATLAB R2023b » The MATLAB Blog - MATLAB & Simulink (mathworks.com)
F = ode(ODEFcn=@(t,y) t^2-t*y,InitialTime=0,InitialValue=3); % Set up your problem
sol = solve(F,-4,4); % solve it over [-4,4]
plot(sol.Time,sol.Solution) % Plot the solution
grid on
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