Can someone look over my newton's method script and see if it looks ok?

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Pam 2014년 11월 19일

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https://kr.mathworks.com/matlabcentral/answers/163304-can-someone-look-over-my-newton-s-method-script-and-see-if-it-looks-ok

댓글: Pam 2014년 11월 20일

for F(X)=x^3-2x and F'(x)=3x^2-2 with initial guess of x=1

if true
  % code
endx = 1;
Tol = 0.0000001;
count = 0;
dx=1;   
f=-1;    
fprintf('step      x           dx           f(x)\n')
fprintf('----  -----------  ---------    ----------\n')
fprintf('%3i %12.8f %12.8f %12.8f\n',count,x,dx,f)
xVec=x;fVec=f;
while (dx > Tol || abs(f)>Tol) 
  count = count + 1;
  fprime = 3*x^2 - 2;
  xnew = x - (f/fprime);   
  dx=abs(x-xnew);          
  x = xnew;
  f = x^3 - 2*x;      
  fprintf('%3i %12.8f %12.8f %12.8f\n',count,x,dx,f)
end

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Answer 1

John D'Errico 2014년 11월 19일

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https://kr.mathworks.com/matlabcentral/answers/163304-can-someone-look-over-my-newton-s-method-script-and-see-if-it-looks-ok#answer_159433

편집: John D'Errico 2014년 11월 19일

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Several obvious things.

First of all, you never evaluate f to start the method out. Yes, since you know the function f AND the starting value, f(1) = -1, so your code looks like it will work since you hard coded f initially as -1, but it is poor coding style anyway.

Second, I strongly suggest you learn not to hard code in your functions, like f(x) and f'(x). Learn to set up such a function up front, so you could use your code to solve a more general problem. For example, you could set up function handles up front...

f_x = @(x) x.^3 - 2*x;
fp_x = @(x) 3*x.^2 - 2;

I'd also suggest putting in a test for a MaxFunEvals or MaxIterations to prevent some problems. You also use the same Tol parameter for both a test on dx and on abs(f). While that might work on some problems, it is a bad idea in general.

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John D'Errico 2014년 11월 19일

편집: John D'Errico 2014년 11월 20일

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It looks like you missed one other thing to make it work. You never defined an initial value for x. Ah, but as I write this, you have defined a variable endx, which I realize is a paste issue.

With that, I ran your code. The function you have has several roots. We can solve for them using roots, a numerical solver...

roots([1 0 -2 0])
ans =
            0
       1.4142
      -1.4142

Or the symbolic way, as...

syms x
solve(x^3 - 2*x)
ans =
        0
  2^(1/2)
 -2^(1/2)

In either case, the roots are 0 and +/-sqrt(2).

Running your Newton's method code, it yields a nice approximation to sqrt(2), one of the roots. As expected, it is quadratically convergent near the solution.

step      x           dx           f(x)
----  -----------  ---------    ----------
 1.00000000   1.00000000  -1.00000000
 2.00000000   1.00000000   4.00000000
 1.60000000   0.40000000   0.89600000
 1.44225352   0.15774648   0.11551761
 1.41501064   0.02724288   0.00319099
 1.41421424   0.00079640   0.00000269
 1.41421356   0.00000067   0.00000000
 1.41421356   0.00000000   0.00000000

So your code worked sucessfully as is.

Pam 2014년 11월 20일

ok thank you so much for the feedback

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Can someone look over my newton's method script and see if it looks ok?

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