Creating a Table for Newton's Method

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Kevin Osborn
Kevin Osborn il 2 Ott 2021
Risposto: Walter Roberson il 2 Ott 2021
I am trying to creat a table for different values that Newton's method approximates for different starting values. I have the following for the method.
x0 = 0.0:0.1:8;
for j = 1:numel(x0)
f = @(x) 2*exp(-2*x) + 4*sin(x) - 2*cos(2*x);
fp = @(x) 4*(-exp(-2*x) + sin(2*x) + cos(x));
x(1) = x0(j);
N = 50;
tol = 1e-6;
n = 2;
nfinal = N + 1;
while (n <= N + 1)
fe = f(x(n - 1));
fpe = fp(x(n - 1));
x(n) = x(n - 1) - fe/fpe;
if (abs(fe) <= tol)
nfinal = n;
break;
end
n = n + 1;
end
end
I think I need to add something in the for loop to save the values, but how do I make a table out of this? I would like one collumn to be all the x(0) values and another collumn to be all the values that each x(0) converges to.

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Risposta accettata

Walter Roberson
Walter Roberson il 2 Ott 2021
Ran in:
The NaN is because you have a 0 divided by 0
x0 = (0.0:0.1:8).';
results = table(x0);
results.x_final = nan(size(x0));
for j = 1:numel(x0)
f = @(x) 2*exp(-2*x) + 4*sin(x) - 2*cos(2*x);
fp = @(x) 4*(-exp(-2*x) + sin(2*x) + cos(x));
x(1) = x0(j);
N = 50;
tol = 1e-6;
n = 2;
nfinal = N + 1;
while (n <= N + 1)
fe = f(x(n - 1));
fpe = fp(x(n - 1));
x(n) = x(n - 1) - fe/fpe;
if (abs(fe) <= tol)
nfinal = n;
break;
end
n = n + 1;
end
results.x_final(j) = x(nfinal);
end
results
results = 81×2 table
x0 x_final ___ ___________ 0 NaN 0.1 9.3521e-05 0.2 8.9191e-05 0.3 0.00012689 0.4 0.00015928 0.5 9.2778e-05 0.6 0.00010227 0.7 0.00010719 0.8 0.00010587 0.9 9.5182e-05 1 0.00013702 1.1 0.00017184 1.2 -0.00011787 1.3 -0.00011629 1.4 -9.1689e-05 1.5 -0.00016472

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