Simpsons Rule: With for loops
Ältere Kommentare anzeigen
Hi, So I have a question where I have to use Simpsons rule to integrate (1-x^3)*sin(x) + exp(x^2/20) between -1 and 4 with 20 intervals. The function has 4 inputs, f(x), a,b (start and end points) and n intervals
I know that I can make this code simpler with the sum function but unfortunately I have to use loops for this exercise.
My code looks like this:
function integral = simpsonsrule(f,a,b,n)
h = (b-a)/n;
x = linspace(a,b,n);
x4=0;
x2=0;
for j=2:2:b
x4 = x4 + f(x4);
end
for k=3:2:b
x2= x2 + f(x2);
end
integral = (h/3)*(f(a)+ f(b) + 4*(x4)+ 2*(x2));
end
And I'm calling it like this:
clear;
integral = simpsonsrule((1-x.^3)*sin(x) + exp(x.^2/20),-1,4,20)
But I'm getting the error: Undefined function or variable 'x'. but haven't I defined it with x=linspace(a,b,n)?
Akzeptierte Antwort
Walter Roberson
am 10 Mai 2015
integral = simpsonsrule(@(x) (1-x.^3)*sin(x) + exp(x.^2/20),-1,4,20)
You need the @(x) to make an anonymous function
8 Kommentare
Eric
am 10 Mai 2015
Walter Roberson
am 10 Mai 2015
for j=2:2:b
x4 = x4 + f(x(j));
end
Eric
am 10 Mai 2015
Walter Roberson
am 10 Mai 2015
Your start and end points are numeric, not indices into x, so in your integral line you should be using f(a) and f(b)
Eric
am 10 Mai 2015
Walter Roberson
am 10 Mai 2015
You need a small correction to the anonymous function. You currently have
@(x) (1-x.^3)*sin(x) + exp(x.^2/20)
and you need instead
@(x) (1-x.^3).*sin(x) + exp(x.^2/20)
I don't think it will change your output
Walter Roberson
am 10 Mai 2015
What kind of n are you using?
Eric
am 10 Mai 2015
Weitere Antworten (1)
Malek Arnous
am 20 Dez. 2017
0 Stimmen
yes
Kategorien
Mehr zu Numerical Integration and Differential Equations finden Sie in Hilfe-Center und File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
