Hi. Lorenz equations are as follows:
Parameter values: sigma = 10, b = 8/3, and r = 28. Employ initial conditions of x = y = z = 5 and integrate from t = 0 to 20. For this case, we will use the fourth-order RK method to obtain solutions with a constant time step of h = 0.03125.
Graph we need to obtain after plotting x, which is y(1), versus t is as follows:
However obtained numerical values converge to zero, so that yl(end,1) = -6.49e-48. The graph we get instead is:
Codes are given below. LorenzPlot.m is run to obtain the graph.Can you please provide the corrections for the code? Thanks.
LorenzPlot.m
[tl, yl] = ode45(@(t,y)lorenz(t,y,a,b,r),tspan,y0);
rk4sys.m
function [tp,yp] = rk4sys(dydt,tspan,y0,h,varargin)
if nargin < 4,error('at least 4 input arguments required'), end
if any(diff(tspan)<= 0),error('tspan not ascending order'), end
ti = tspan(1);tf = tspan(n);
t = (ti:h:tf)'; n = length(t);
np = 1; tp(np) = tt; yp(np,:) = y(1,:);
if tt+hh > tend,hh = tend-tt;end
k1 = dydt(tt,y(i,:),varargin{:})';
k2 = dydt(tt + hh/2,ymid,varargin{:})';
k3 = dydt(tt + hh/2,ymid,varargin{:})';
k4 = dydt(tt + hh,yend,varargin{:})';
phi = (k1 + 2*(k2 + k3) + k4)/6;
y(i + 1,:) = y(i,:) + phi*hh;
np = np + 1; tp(np) = tt; yp(np,:) = y(i,:);
lorenz.m
function yl = lorenz(t,y,a,b,r)
