Value for Function with 2nd order Central difference scheme
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I am trying to write code for the above problem but getting wrong answer, Kindly help me to find the error in the code or suggest if there is any better alternate way to write code for the problem.
Right answer is 2.3563
c=1.5;
h=0.1;
x=(c-h):h:(c+h);
Fun=@(x) exp(x)-exp(-x)/2;
dFun=@(x) 2*exp(x)+2*exp(-x)/2;
F=Fun(x);
n=length(x);
dx= (F(:,end)-F(:,1))/(2*h)
Accepted Answer
Star Strider
on 12 Aug 2023
0 votes
See First and Second Order Central Difference and add enclosing parentheses to the numerator of your implementation of the cosh function.
2 Comments
c=1.5;
h=0.1;
x=(c-h):h:(c+h);
Fun=@(x) (exp(x)-exp(-x))/2; % parenthesis
dFun=@(x) 2*(exp(x)+exp(-x))/2; % parenthesis
F=Fun(x);
n=length(x);
dx= (F(:,end)-F(:,1))/(2*h)
Anu
on 30 Sep 2023
c = 1.5;
h = 0.1;
x = (c - h):h:(c + h);
Fun = @(x) (exp(x) - exp(-x)) / 2;
F = Fun(x);
n = length(x);
dx = (F(3) - F(1)) / (2 * h); % Corrected calculation of derivative at x=c
More Answers (1)
Anu
on 30 Sep 2023
0 votes
- c is the central point.
- h is the step size.
- x is a vector of values around c.
- Fun is the function you want to calculate the derivative for.
- F is the function values at the points in x.
- dx calculates the derivative at the central point c using finite differences.
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