How can I code this Newton-Raphson and Secant Methods?

10 May 2020
1 Answer
Answer Accepted
Updated 2 Nov 2020
6 Views (30 days)

0 votes

Determine the root of the given equation (3*x*e^x)-1=0 for x [0,1] using Newton-Raphson and Secant methods. Stop calculation after seven iterations. I've coded a code but I'm not sure it is right or not...
%f is non-linear function.
%fder is derivation of f.
%x0 is initial value of iteration.
%e is tolerance of f function.
%d is first condition tolerance value.
%y is error amount.
%max is maximum iteration number.
syms x
x0 = 0;
x1 = 1;
d = 0.000001;
e = 0.00001;
max = 7;
f = @(x) 3*x*exp(x)-1;
fder = @(x) 3*(exp(x)+exp(x))*x;
for iteration = 0:max
t = fder(x0); %to check the derivation is zero or not.
if abs(t)<e
disp('Derivation value is very close to zero, algorithm stops')
break
end
x1 = x0-(f(x0)/fder(x0));
error = abs(x1-x0);
odderror = 2*error/(abs(x1)+d);
x0 = x1;
y = f(x0);
if(error<d)||(odderror<d)||(abs(y)<e)
break
end
end
disp('Wanted root value')
x1
disp('Error amount')
y
disp('Iteration number')
iteration

Sign in to answer this question.

 Accepted Answer

David Hill
David Hill on 10 May 2020

1 vote

The basic code is as follows. You can do other checks as desired.Your code looked ok, except you don't need symbolic variables and your fder function was missing a ')'.
x=0;
f = @(x) 3*x.*exp(x)-1;
fder = @(x) 3*(exp(x)+exp(x).*x);
for k=1:7%newton method
x=x-f(x)/fder(x);
end
y=[0,1];
for k=1:7%secant method
z=y(2);
y(2)=y(2)-f(y(2))*diff(y)/diff(f(y));
y(1)=z;
end

2 Comments
Show None Hide None

better you add an if condition, if f(x0)=0 then x=x0. To avoid a division by 0

Sign in to comment.

More Answers (0)

Categories

Find more on Symbolic Math Toolbox in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!