Simpsons 1/3 rule using n =10 , 100, 1000
Show older comments
i cant get my code to work. im trying to implement the simpsons one-third rule to get the value of the certain function using n =10, 100, 1000. Any Help i would prefer to use the for loops.
%% Parameters
P = 5000; %lb
a= 0; %lower bound
b = 10; %upperbound
n = [10 100 1000]; % step size
f = @(x) P / ((30e6)*(1-0.01*x-0.0005*x.^2)*2*exp(-0.1*x)); %function
%% Simpsons one-third rule
for j = 1:length(n)
h(j) = (b-a)/(n(j));
f_even = 0;
for i = 2:2:n-2 %even
x = a+i *h(j);
f_even = f_even + f(x);
end
f_odd = 0;
for i = 1:2:n-1 %odd
x = a+i *h(j);
f_odd = f_odd + f(x);
end
I(j) = (h(j)/3) * (f(0) + 4* f_odd + 2*f_even +f(10)); %one-third rule
end
2 Comments
Tommy
on 17 Apr 2020
One thing I noticed:
for i = 2:2:n-2 %even
Here, use
for i = 2:2:n(j)-2 %even
instead.
Same with
for i = 1:2:n-1 %odd
Jose Puentes
on 17 Apr 2020
Answers (0)
Categories
Find more on Numerical Integration and Differential Equations in Help Center and File Exchange
on 17 Apr 2020
on 17 Apr 2020
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
